content stringlengths 4 1.04M | lang stringclasses 358
values | score int64 0 5 | repo_name stringlengths 5 114 | repo_path stringlengths 4 229 | repo_licenses listlengths 1 8 |
|---|---|---|---|---|---|
-- Copyright (c) 2010 The Chromium Authors. All rights reserved.
-- Use of this source code is governed by a BSD-style license that can be
-- found in the LICENSE file.
-- This script deletes all the items within a bookmark folder.
tell application "Chromium"
set var to bookmark folder "New" of bookmarks bar
-- Change the folder to whichever you want.
tell var
delete every bookmark item
delete every bookmark folder
end tell
end tell
| AppleScript | 4 | zealoussnow/chromium | chrome/browser/ui/cocoa/applescript/examples/delete_bookmarks.applescript | [
"BSD-3-Clause-No-Nuclear-License-2014",
"BSD-3-Clause"
] |
{
"config": {
"abort": {
"cannot_connect": "Kan geen verbinding maken met controller met url {base_url}"
},
"step": {
"user": {
"data": {
"exclude": "Vera-apparaat-ID's om uit te sluiten van Home Assistant.",
"lights": "Vera-schakelapparaat id's behandelen als lichten in Home Assistant.",
"vera_controller_url": "Controller-URL"
},
"data_description": {
"vera_controller_url": "Het zou er zo uit moeten zien: http://192.168.1.161:3480"
}
}
}
},
"options": {
"step": {
"init": {
"data": {
"exclude": "Vera-apparaat-ID's om uit te sluiten van Home Assistant.",
"lights": "Vera-schakelapparaat id's behandelen als lichten in Home Assistant."
},
"description": "Zie de vera-documentatie voor details over optionele parameters: https://www.home-assistant.io/integrations/vera/. Opmerking: alle wijzigingen hier moeten opnieuw worden opgestart naar de Home Assistant-server. Druk op spatie om de waarden te wissen.",
"title": "Vera controller opties"
}
}
}
} | JSON | 3 | liangleslie/core | homeassistant/components/vera/translations/nl.json | [
"Apache-2.0"
] |
--TEST--
cli_get_process_title() function : basic functionality
--CREDITS--
Patrick Allaert patrickallaert@php.net
@nephp #nephp17
--SKIPIF--
<?php
if (PHP_SAPI !== "cli")
die("skip cli process title not available in non-cli SAPI");
if (!PHP_CLI_PROCESS_TITLE)
die("skip process title not available (disabled or unsupported)");
?>
--FILE--
<?php
if (cli_set_process_title("title") && cli_get_process_title() === "title")
echo "Title correctly retrieved!\n";
?>
--EXPECT--
Title correctly retrieved!
| PHP | 3 | thiagooak/php-src | sapi/cli/tests/cli_get_process_title_basic.phpt | [
"PHP-3.01"
] |
package com.baeldung.features;
import org.junit.jupiter.api.Test;
import java.util.Arrays;
import java.util.Set;
import java.util.stream.Collectors;
import static org.assertj.core.api.Assertions.assertThat;
class NestedClassesUnitTest {
@Test
public void giveNestedClass_whenCallingMainClassPrivateMethod_thenNoExceptionIsThrown() {
MainClass.NestedClass nestedInstance = new MainClass.NestedClass();
assertThat(nestedInstance.nestedPublicMethod()).isTrue();
}
@Test
public void giveNestedClass_whenCheckingNestmate_thenNestedClassIsReturned() {
assertThat(MainClass.class.isNestmateOf(MainClass.NestedClass.class)).isTrue();
}
@Test
public void giveNestedClass_whenCheckingNestHost_thenMainClassIsReturned() {
assertThat(MainClass.NestedClass.class.getNestHost()).isEqualTo(MainClass.class);
}
@Test
public void giveNestedClass_whenCheckingNestMembers_thenNestMembersAreReturned() {
Set<String> nestedMembers = Arrays.stream(MainClass.NestedClass.class.getNestMembers())
.map(Class::getName)
.collect(Collectors.toSet());
assertThat(nestedMembers).contains(MainClass.class.getName(), MainClass.NestedClass.class.getName());
}
}
| Java | 5 | DBatOWL/tutorials | core-java-modules/core-java-11-2/src/test/java/com/baeldung/features/NestedClassesUnitTest.java | [
"MIT"
] |
#include "script_component.hpp"
/*
Name: TFAR_fnc_getSwFrequency
Author: NKey, Garth de Wet (L-H)
Gets the frequency for the active channel.
Arguments:
Radio classname <STRING>
Return Value:
Frequency <NUMBER>
Example:
_frequency = (call TFAR_fnc_ActiveSwRadio) call TFAR_fnc_getSwFrequency;
Public: Yes
*/
params[["_radio", "", [""]]];
[_radio, ((_radio call TFAR_fnc_getSwSettings) param [ACTIVE_CHANNEL_OFFSET,0])+1] call TFAR_fnc_getChannelFrequency;
| SQF | 4 | MrDj200/task-force-arma-3-radio | addons/core/functions/fnc_getSwFrequency.sqf | [
"RSA-MD"
] |
get:
description: Ping this Marathon instance.
responses:
200:
description: Every ping is answered with a pong.
body:
text/plain:
example: pong
application/json:
type: string
example: "pong"
| RAML | 3 | fquesnel/marathon | docs/docs/rest-api/public/api/general/ping.raml | [
"Apache-2.0"
] |
[Constructor()]
interface TestPromises {
Promise<DOMString> stringPromise();
};
| WebIDL | 3 | dkozma/wasm-bindgen | crates/webidl-tests/webidls/enabled/promise.webidl | [
"Apache-2.0",
"MIT"
] |
import {Component, NgModule} from '@angular/core';
@Component({
selector: 'my-component',
template: `
<div class="A{{p1}}B"></div>
<div class="A{{p1}}B{{p2}}C"></div>
<div class="A{{p1}}B{{p2}}C{{p3}}D"></div>
<div class="A{{p1}}B{{p2}}C{{p3}}D{{p4}}E"></div>
<div class="A{{p1}}B{{p2}}C{{p3}}D{{p4}}E{{p5}}F"></div>
<div class="A{{p1}}B{{p2}}C{{p3}}D{{p4}}E{{p5}}F{{p6}}G"></div>
<div class="A{{p1}}B{{p2}}C{{p3}}D{{p4}}E{{p5}}F{{p6}}G{{p7}}H"></div>
<div class="A{{p1}}B{{p2}}C{{p3}}D{{p4}}E{{p5}}F{{p6}}G{{p7}}H{{p8}}I"></div>
<div class="A{{p1}}B{{p2}}C{{p3}}D{{p4}}E{{p5}}F{{p6}}G{{p7}}H{{p8}}I{{p9}}J"></div>
`,
})
export class MyComponent {
p1 = 100;
p2 = 100;
p3 = 100;
p4 = 100;
p5 = 100;
p6 = 100;
p7 = 100;
p8 = 100;
p9 = 100;
}
@NgModule({declarations: [MyComponent]})
export class MyModule {
}
| TypeScript | 4 | John-Cassidy/angular | packages/compiler-cli/test/compliance/test_cases/r3_view_compiler_styling/host_bindings/class_interpolation.ts | [
"MIT"
] |
bottles
set template1="i_n_""of beer on the wall. ""_i_n_"" of beer. """
set template2="""Take""_n2_""down, pass it around. """
set template3="j_n3_""of beer on the wall."""
for i=99:-1:1 do write ! hang 1
. set:i>1 n=" bottles ",n2=" one " set:i=1 n=" bottle ",n2=" it "
. set n3=" bottle " set j=i-1 set:(j>1)!(j=0) n3=" bottles " set:j=0 j="No"
. write @template1,@template2,@template3
repeat
write "One more time!",! hang 5
goto bottles
| M | 3 | mullikine/RosettaCodeData | Task/99-Bottles-of-Beer/MUMPS/99-bottles-of-beer-3.mumps | [
"Info-ZIP"
] |
defmodule Dialyzer.Cond do
def one_boolean do
cond do
true -> :ok
end
end
def two_boolean do
cond do
List.flatten([]) == [] -> :ok
true -> :ok
end
end
def one_otherwise do
cond do
:otherwise -> :ok
end
end
def two_otherwise do
cond do
List.flatten([]) == [] -> :ok
:otherwise -> :ok
end
end
end
| Elixir | 3 | doughsay/elixir | lib/elixir/test/elixir/fixtures/dialyzer/cond.ex | [
"Apache-2.0"
] |
/// The absent value
///
/// The `None` type represents a type with _no_ value.
///
/// It is often used to type code that fails to return control (e.g. an infinite loop)
/// or to designate impossible values (e.g. the type `?None` only contains `null`).
import Prim "mo:⛔";
module {
/// The empty type. A subtype of all types.
public type None = Prim.Types.None;
/// Turns an absurd value into an arbitrary type.
public let impossible : <A> None -> A = func<A>(x : None) : A {
switch (x) {};
};
}
| Modelica | 4 | nomeata/motoko-base | src/None.mo | [
"Apache-2.0"
] |
- view: opportunity_facts
derived_table:
sql: |
select account_id
, sum(case
when stage_name = 'Closed Won'
then 1
else 0
end) as lifetime_opportunities_won
, sum(case
when stage_name = 'Closed Won'
then acv
else 0
end) as lifetime_acv
from salesforce._opportunity
group by 1
sortkeys: [account_id]
distkey: account_id
sql_trigger_value: select current_date
fields:
# dimensions #
- dimension: account_id
type: string
primary_key: true
hidden: true
sql: ${TABLE}.account_id
- dimension: lifetime_opportunities_won
type: number
sql: ${TABLE}.lifetime_opportunities_won
- dimension: lifetime_acv
label: 'Lifetime ACV'
type: number
sql: ${TABLE}.lifetime_acv
| LookML | 4 | rsharma03/blocks_salesforce | submodules/opportunity_snapshot/opportunity_facts.view.lookml | [
"MIT"
] |
alias h='history'
alias hs='history | grep'
alias hsi='history | grep -i'
| Shell | 3 | chensanle/ohmyzsh | plugins/history/history.plugin.zsh | [
"MIT"
] |
{
"cells": [
{
"cell_type": "markdown",
"metadata": {},
"source": [
"# Image Data Explanation Benchmarking: Image Multiclass Classification"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"This notebook demonstrates how to use the benchmark utility to benchmark the performance of an explainer for image data. In this demo, we showcase explanation performance for partition explainer on an Image Multiclass Classification model. The metrics used to evaluate are \"keep positive\" and \"keep negative\". The masker used is Image Masker with Inpaint Telea.\n",
"\n",
"The new benchmark utility uses the new API with MaskedModel as wrapper around user-imported model and evaluates masked values of inputs."
]
},
{
"cell_type": "code",
"execution_count": 1,
"metadata": {},
"outputs": [],
"source": [
"import json\n",
"import numpy as np\n",
"import shap\n",
"import shap.benchmark as benchmark\n",
"import tensorflow as tf\n",
"import scipy as sp\n",
"from tensorflow.keras.applications.resnet50 import ResNet50, preprocess_input"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"### Load Data and Model"
]
},
{
"cell_type": "code",
"execution_count": 2,
"metadata": {},
"outputs": [],
"source": [
"model = ResNet50(weights='imagenet')\n",
"X, y = shap.datasets.imagenet50()"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"### Class Label Mapping"
]
},
{
"cell_type": "code",
"execution_count": 3,
"metadata": {},
"outputs": [],
"source": [
"url = \"https://s3.amazonaws.com/deep-learning-models/image-models/imagenet_class_index.json\"\n",
"with open(shap.datasets.cache(url)) as file:\n",
" class_names = [v[1] for v in json.load(file).values()]"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"### Define Score Function"
]
},
{
"cell_type": "code",
"execution_count": 4,
"metadata": {},
"outputs": [],
"source": [
"def f(x):\n",
" tmp = x.copy()\n",
" if len(tmp.shape) == 2: \n",
" tmp = tmp.reshape(tmp.shape[0], *X[0].shape)\n",
" preprocess_input(tmp)\n",
" return model(tmp)"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"### Define Image Masker"
]
},
{
"cell_type": "code",
"execution_count": 5,
"metadata": {},
"outputs": [],
"source": [
"masker = shap.maskers.Image(\"inpaint_telea\", X[0].shape)"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"### Create Explainer Object"
]
},
{
"cell_type": "code",
"execution_count": 6,
"metadata": {},
"outputs": [
{
"name": "stderr",
"output_type": "stream",
"text": [
"explainers.Partition is still in an alpha state, so use with caution...\n"
]
}
],
"source": [
"explainer = shap.Explainer(f, masker, output_names=class_names)"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"### Run SHAP Explanation"
]
},
{
"cell_type": "code",
"execution_count": 7,
"metadata": {},
"outputs": [
{
"data": {
"application/vnd.jupyter.widget-view+json": {
"model_id": "",
"version_major": 2,
"version_minor": 0
},
"text/plain": [
"HBox(children=(FloatProgress(value=0.0, max=248.0), HTML(value='')))"
]
},
"metadata": {},
"output_type": "display_data"
},
{
"name": "stderr",
"output_type": "stream",
"text": [
"\r",
"Partition explainer: 50%|█████████████████ | 1/2 [00:00<?, ?it/s]"
]
},
{
"data": {
"application/vnd.jupyter.widget-view+json": {
"model_id": "",
"version_major": 2,
"version_minor": 0
},
"text/plain": [
"HBox(children=(FloatProgress(value=0.0, max=248.0), HTML(value='')))"
]
},
"metadata": {},
"output_type": "display_data"
},
{
"name": "stderr",
"output_type": "stream",
"text": [
"Partition explainer: 3it [03:15, 65.24s/it] \n"
]
}
],
"source": [
"shap_values = explainer(X[1:3], max_evals=500, batch_size=50, outputs=shap.Explanation.argsort.flip[:4]) "
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"### Plot SHAP Explanation"
]
},
{
"cell_type": "code",
"execution_count": 8,
"metadata": {},
"outputs": [
{
"data": {
"image/png": 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\n",
"text/plain": [
"<Figure size 1080x540 with 11 Axes>"
]
},
"metadata": {
"needs_background": "light"
},
"output_type": "display_data"
}
],
"source": [
"shap.image_plot(shap_values)"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"### Get Output Class Indices"
]
},
{
"cell_type": "code",
"execution_count": 9,
"metadata": {},
"outputs": [],
"source": [
"output = f(X[1:3]).numpy()\n",
"num_of_outputs = 4\n",
"sorted_indexes = np.argsort(-output,axis=1)\n",
"sliced_indexes = np.array([index_list[:num_of_outputs] for index_list in sorted_indexes])"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"### Define Metrics (Sort Order & Perturbation Method)"
]
},
{
"cell_type": "code",
"execution_count": 10,
"metadata": {},
"outputs": [],
"source": [
"sort_order = 'positive'\n",
"perturbation = 'keep'"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"### Benchmark Explainer"
]
},
{
"cell_type": "code",
"execution_count": 11,
"metadata": {},
"outputs": [
{
"data": {
"application/vnd.jupyter.widget-view+json": {
"model_id": "",
"version_major": 2,
"version_minor": 0
},
"text/plain": [
"HBox(children=(FloatProgress(value=0.0, max=1.0), HTML(value='')))"
]
},
"metadata": {},
"output_type": "display_data"
},
{
"data": {
"image/png": 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\n",
"text/plain": [
"<Figure size 432x288 with 1 Axes>"
]
},
"metadata": {
"needs_background": "light"
},
"output_type": "display_data"
}
],
"source": [
"sequential_perturbation = benchmark.perturbation.SequentialPerturbation(explainer.model, explainer.masker, sort_order, perturbation)\n",
"xs, ys, auc = sequential_perturbation.model_score(shap_values, X[1:2], indices=sliced_indexes[0])\n",
"sequential_perturbation.plot(xs, ys, auc)"
]
}
],
"metadata": {
"kernelspec": {
"display_name": "Python 3",
"language": "python",
"name": "python3"
},
"language_info": {
"codemirror_mode": {
"name": "ipython",
"version": 3
},
"file_extension": ".py",
"mimetype": "text/x-python",
"name": "python",
"nbconvert_exporter": "python",
"pygments_lexer": "ipython3",
"version": "3.7.9"
}
},
"nbformat": 4,
"nbformat_minor": 4
}
| Jupyter Notebook | 5 | willianfco/shap | notebooks/benchmark/image/Image Multiclass Classification Benchmark Demo.ipynb | [
"MIT"
] |
=pod
=head1 NAME
SSL_state_string, SSL_state_string_long - get textual description of state of an SSL object
=head1 SYNOPSIS
#include <openssl/ssl.h>
const char *SSL_state_string(const SSL *ssl);
const char *SSL_state_string_long(const SSL *ssl);
=head1 DESCRIPTION
SSL_state_string() returns an abbreviated string indicating the current state
of the SSL object B<ssl>. The returned NUL-terminated string contains 6 or fewer characters.
SSL_state_string_long() returns a descriptive string indicating the current state of
the SSL object B<ssl>.
=head1 NOTES
During its use, an SSL objects passes several states. The state is internally
maintained. Querying the state information is not very informative before
or when a connection has been established. It however can be of significant
interest during the handshake.
When using nonblocking sockets, the function call performing the handshake
may return with SSL_ERROR_WANT_READ or SSL_ERROR_WANT_WRITE condition,
so that SSL_state_string[_long]() may be called.
For both blocking or nonblocking sockets, the details state information
can be used within the info_callback function set with the
SSL_set_info_callback() call.
=head1 RETURN VALUES
Detailed description of possible states to be included later.
=head1 SEE ALSO
L<ssl(7)>, L<SSL_CTX_set_info_callback(3)>
=head1 COPYRIGHT
Copyright 2001-2021 The OpenSSL Project Authors. All Rights Reserved.
Licensed under the Apache License 2.0 (the "License"). You may not use
this file except in compliance with the License. You can obtain a copy
in the file LICENSE in the source distribution or at
L<https://www.openssl.org/source/license.html>.
=cut
| Pod | 5 | pmesnier/openssl | doc/man3/SSL_state_string.pod | [
"Apache-2.0"
] |
#version 450
layout(location = 0) flat in int vA;
layout(location = 0) out vec4 FragColor;
vec4 foobar(int a)
{
if (a < 0)
{
discard;
}
return vec4(10.0);
}
void main()
{
int param = vA;
vec4 _25 = foobar(param);
FragColor = vec4(10.0);
}
| GLSL | 4 | Alan-love/filament | third_party/spirv-cross/reference/shaders-no-opt/asm/frag/discard-impure-function-call.asm.frag | [
"Apache-2.0"
] |
<div>
<p>foo!</p>
<p>bar!</p>
</div> | HTML | 0 | Theo-Steiner/svelte | test/hydration/samples/if-block-anchor/_before.html | [
"MIT"
] |
;; Declarations
patches-own [zone]
breed [inhabitants inhabitant]
inhabitants-own [id zone.original age sex income]
;; Procedures
to setup
clear-all
reset-ticks
create-zones
;read-agent-data
read-agent-data-2
end
to create-zones
ask patches [set pcolor 2 set zone 3]
ask patches [if pxcor < 24 [set pcolor 4 set zone 2]]
ask patches [if pxcor < 12 [set pcolor 6 set zone 1]]
ask patch 6 9 [ set plabel "Zone 1" ]
ask patch 18 9 [ set plabel "Zone 2" ]
ask patch 30 9 [ set plabel "Zone 3" ]
end
to read-agent-data
set-default-shape inhabitants "person"
file-open csv
while [not file-at-end?][
let $line file-read-line ; reads single line from .csv file
create-inhabitants 1[
set id read-from-string substring $line 0 1 ; get the first value
set zone.original read-from-string substring $line 2 3
set age read-from-string substring $line 4 6
set sex substring $line 8 9
set income read-from-string substring $line 11 15
ifelse sex = "m" [set color yellow] [set color green]
move-to one-of patches with [not any? turtles-here and zone = [zone.original] of myself ]
]
]
file-close
end
to read-agent-data-2
set-default-shape inhabitants "person"
file-open csv ; opens connection to file - last line in procedure closes it
while [not file-at-end?][ ; outer loop through all rows
let $case file-read-line ; reads single line from .csv file
set $case word $case "," ; add a comma at the end
let $data.list [] ; set empty list to collect elements from each case
create-inhabitants 1[ ; create single agent and read their data:
while [not empty? $case] [ ; inner loop through all elements in row
let $pos position "," $case ; find next comma
let $item read-from-string substring $case 0 $pos ; extract item before the comma
set $data.list lput $item $data.list ; add the item to the list
set $case substring $case ($pos + 1) length $case ; remove item and comma from case. repeat loop
]
; now all the items from the row are a items in data.list. assign them to the agent
set id item 0 $data.list
set zone.original item 1 $data.list
set age item 2 $data.list
set sex item 3 $data.list
set income item 4 $data.list
ifelse sex = "m" [set color yellow] [set color green] ; assign colour based on sex
move-to one-of patches with [not any? turtles-here and zone = [zone.original] of myself ]
; position agent in an empty patch in the correct zone.
]
]
file-close
end
@#$#@#$#@
GRAPHICS-WINDOW
171
10
649
275
-1
-1
13.0
1
10
1
1
1
0
0
0
1
0
35
0
17
0
0
1
ticks
30.0
MONITOR
66
148
158
193
NIL
count patches
17
1
11
BUTTON
76
62
139
95
NIL
setup
NIL
1
T
OBSERVER
NIL
NIL
NIL
NIL
1
CHOOSER
22
221
160
266
csv
csv
"agents.csv"
0
@#$#@#$#@
## WHAT IS IT?
(a general understanding of what the model is trying to show or explain)
## HOW IT WORKS
(what rules the agents use to create the overall behavior of the model)
## HOW TO USE IT
(how to use the model, including a description of each of the items in the Interface tab)
## THINGS TO NOTICE
(suggested things for the user to notice while running the model)
## THINGS TO TRY
(suggested things for the user to try to do (move sliders, switches, etc.) with the model)
## EXTENDING THE MODEL
(suggested things to add or change in the Code tab to make the model more complicated, detailed, accurate, etc.)
## NETLOGO FEATURES
(interesting or unusual features of NetLogo that the model uses, particularly in the Code tab; or where workarounds were needed for missing features)
## RELATED MODELS
(models in the NetLogo Models Library and elsewhere which are of related interest)
## CREDITS AND REFERENCES
(a reference to the model's URL on the web if it has one, as well as any other necessary credits, citations, and links)
@#$#@#$#@
default
true
0
Polygon -7500403 true true 150 5 40 250 150 205 260 250
airplane
true
0
Polygon -7500403 true true 150 0 135 15 120 60 120 105 15 165 15 195 120 180 135 240 105 270 120 285 150 270 180 285 210 270 165 240 180 180 285 195 285 165 180 105 180 60 165 15
arrow
true
0
Polygon -7500403 true true 150 0 0 150 105 150 105 293 195 293 195 150 300 150
box
false
0
Polygon -7500403 true true 150 285 285 225 285 75 150 135
Polygon -7500403 true true 150 135 15 75 150 15 285 75
Polygon -7500403 true true 15 75 15 225 150 285 150 135
Line -16777216 false 150 285 150 135
Line -16777216 false 150 135 15 75
Line -16777216 false 150 135 285 75
bug
true
0
Circle -7500403 true true 96 182 108
Circle -7500403 true true 110 127 80
Circle -7500403 true true 110 75 80
Line -7500403 true 150 100 80 30
Line -7500403 true 150 100 220 30
butterfly
true
0
Polygon -7500403 true true 150 165 209 199 225 225 225 255 195 270 165 255 150 240
Polygon -7500403 true true 150 165 89 198 75 225 75 255 105 270 135 255 150 240
Polygon -7500403 true true 139 148 100 105 55 90 25 90 10 105 10 135 25 180 40 195 85 194 139 163
Polygon -7500403 true true 162 150 200 105 245 90 275 90 290 105 290 135 275 180 260 195 215 195 162 165
Polygon -16777216 true false 150 255 135 225 120 150 135 120 150 105 165 120 180 150 165 225
Circle -16777216 true false 135 90 30
Line -16777216 false 150 105 195 60
Line -16777216 false 150 105 105 60
car
false
0
Polygon -7500403 true true 300 180 279 164 261 144 240 135 226 132 213 106 203 84 185 63 159 50 135 50 75 60 0 150 0 165 0 225 300 225 300 180
Circle -16777216 true false 180 180 90
Circle -16777216 true false 30 180 90
Polygon -16777216 true false 162 80 132 78 134 135 209 135 194 105 189 96 180 89
Circle -7500403 true true 47 195 58
Circle -7500403 true true 195 195 58
circle
false
0
Circle -7500403 true true 0 0 300
circle 2
false
0
Circle -7500403 true true 0 0 300
Circle -16777216 true false 30 30 240
cow
false
0
Polygon -7500403 true true 200 193 197 249 179 249 177 196 166 187 140 189 93 191 78 179 72 211 49 209 48 181 37 149 25 120 25 89 45 72 103 84 179 75 198 76 252 64 272 81 293 103 285 121 255 121 242 118 224 167
Polygon -7500403 true true 73 210 86 251 62 249 48 208
Polygon -7500403 true true 25 114 16 195 9 204 23 213 25 200 39 123
cylinder
false
0
Circle -7500403 true true 0 0 300
dot
false
0
Circle -7500403 true true 90 90 120
face happy
false
0
Circle -7500403 true true 8 8 285
Circle -16777216 true false 60 75 60
Circle -16777216 true false 180 75 60
Polygon -16777216 true false 150 255 90 239 62 213 47 191 67 179 90 203 109 218 150 225 192 218 210 203 227 181 251 194 236 217 212 240
face neutral
false
0
Circle -7500403 true true 8 7 285
Circle -16777216 true false 60 75 60
Circle -16777216 true false 180 75 60
Rectangle -16777216 true false 60 195 240 225
face sad
false
0
Circle -7500403 true true 8 8 285
Circle -16777216 true false 60 75 60
Circle -16777216 true false 180 75 60
Polygon -16777216 true false 150 168 90 184 62 210 47 232 67 244 90 220 109 205 150 198 192 205 210 220 227 242 251 229 236 206 212 183
fish
false
0
Polygon -1 true false 44 131 21 87 15 86 0 120 15 150 0 180 13 214 20 212 45 166
Polygon -1 true false 135 195 119 235 95 218 76 210 46 204 60 165
Polygon -1 true false 75 45 83 77 71 103 86 114 166 78 135 60
Polygon -7500403 true true 30 136 151 77 226 81 280 119 292 146 292 160 287 170 270 195 195 210 151 212 30 166
Circle -16777216 true false 215 106 30
flag
false
0
Rectangle -7500403 true true 60 15 75 300
Polygon -7500403 true true 90 150 270 90 90 30
Line -7500403 true 75 135 90 135
Line -7500403 true 75 45 90 45
flower
false
0
Polygon -10899396 true false 135 120 165 165 180 210 180 240 150 300 165 300 195 240 195 195 165 135
Circle -7500403 true true 85 132 38
Circle -7500403 true true 130 147 38
Circle -7500403 true true 192 85 38
Circle -7500403 true true 85 40 38
Circle -7500403 true true 177 40 38
Circle -7500403 true true 177 132 38
Circle -7500403 true true 70 85 38
Circle -7500403 true true 130 25 38
Circle -7500403 true true 96 51 108
Circle -16777216 true false 113 68 74
Polygon -10899396 true false 189 233 219 188 249 173 279 188 234 218
Polygon -10899396 true false 180 255 150 210 105 210 75 240 135 240
house
false
0
Rectangle -7500403 true true 45 120 255 285
Rectangle -16777216 true false 120 210 180 285
Polygon -7500403 true true 15 120 150 15 285 120
Line -16777216 false 30 120 270 120
leaf
false
0
Polygon -7500403 true true 150 210 135 195 120 210 60 210 30 195 60 180 60 165 15 135 30 120 15 105 40 104 45 90 60 90 90 105 105 120 120 120 105 60 120 60 135 30 150 15 165 30 180 60 195 60 180 120 195 120 210 105 240 90 255 90 263 104 285 105 270 120 285 135 240 165 240 180 270 195 240 210 180 210 165 195
Polygon -7500403 true true 135 195 135 240 120 255 105 255 105 285 135 285 165 240 165 195
line
true
0
Line -7500403 true 150 0 150 300
line half
true
0
Line -7500403 true 150 0 150 150
pentagon
false
0
Polygon -7500403 true true 150 15 15 120 60 285 240 285 285 120
person
false
0
Circle -7500403 true true 110 5 80
Polygon -7500403 true true 105 90 120 195 90 285 105 300 135 300 150 225 165 300 195 300 210 285 180 195 195 90
Rectangle -7500403 true true 127 79 172 94
Polygon -7500403 true true 195 90 240 150 225 180 165 105
Polygon -7500403 true true 105 90 60 150 75 180 135 105
plant
false
0
Rectangle -7500403 true true 135 90 165 300
Polygon -7500403 true true 135 255 90 210 45 195 75 255 135 285
Polygon -7500403 true true 165 255 210 210 255 195 225 255 165 285
Polygon -7500403 true true 135 180 90 135 45 120 75 180 135 210
Polygon -7500403 true true 165 180 165 210 225 180 255 120 210 135
Polygon -7500403 true true 135 105 90 60 45 45 75 105 135 135
Polygon -7500403 true true 165 105 165 135 225 105 255 45 210 60
Polygon -7500403 true true 135 90 120 45 150 15 180 45 165 90
sheep
false
15
Circle -1 true true 203 65 88
Circle -1 true true 70 65 162
Circle -1 true true 150 105 120
Polygon -7500403 true false 218 120 240 165 255 165 278 120
Circle -7500403 true false 214 72 67
Rectangle -1 true true 164 223 179 298
Polygon -1 true true 45 285 30 285 30 240 15 195 45 210
Circle -1 true true 3 83 150
Rectangle -1 true true 65 221 80 296
Polygon -1 true true 195 285 210 285 210 240 240 210 195 210
Polygon -7500403 true false 276 85 285 105 302 99 294 83
Polygon -7500403 true false 219 85 210 105 193 99 201 83
square
false
0
Rectangle -7500403 true true 30 30 270 270
square 2
false
0
Rectangle -7500403 true true 30 30 270 270
Rectangle -16777216 true false 60 60 240 240
star
false
0
Polygon -7500403 true true 151 1 185 108 298 108 207 175 242 282 151 216 59 282 94 175 3 108 116 108
target
false
0
Circle -7500403 true true 0 0 300
Circle -16777216 true false 30 30 240
Circle -7500403 true true 60 60 180
Circle -16777216 true false 90 90 120
Circle -7500403 true true 120 120 60
tree
false
0
Circle -7500403 true true 118 3 94
Rectangle -6459832 true false 120 195 180 300
Circle -7500403 true true 65 21 108
Circle -7500403 true true 116 41 127
Circle -7500403 true true 45 90 120
Circle -7500403 true true 104 74 152
triangle
false
0
Polygon -7500403 true true 150 30 15 255 285 255
triangle 2
false
0
Polygon -7500403 true true 150 30 15 255 285 255
Polygon -16777216 true false 151 99 225 223 75 224
truck
false
0
Rectangle -7500403 true true 4 45 195 187
Polygon -7500403 true true 296 193 296 150 259 134 244 104 208 104 207 194
Rectangle -1 true false 195 60 195 105
Polygon -16777216 true false 238 112 252 141 219 141 218 112
Circle -16777216 true false 234 174 42
Rectangle -7500403 true true 181 185 214 194
Circle -16777216 true false 144 174 42
Circle -16777216 true false 24 174 42
Circle -7500403 false true 24 174 42
Circle -7500403 false true 144 174 42
Circle -7500403 false true 234 174 42
turtle
true
0
Polygon -10899396 true false 215 204 240 233 246 254 228 266 215 252 193 210
Polygon -10899396 true false 195 90 225 75 245 75 260 89 269 108 261 124 240 105 225 105 210 105
Polygon -10899396 true false 105 90 75 75 55 75 40 89 31 108 39 124 60 105 75 105 90 105
Polygon -10899396 true false 132 85 134 64 107 51 108 17 150 2 192 18 192 52 169 65 172 87
Polygon -10899396 true false 85 204 60 233 54 254 72 266 85 252 107 210
Polygon -7500403 true true 119 75 179 75 209 101 224 135 220 225 175 261 128 261 81 224 74 135 88 99
wheel
false
0
Circle -7500403 true true 3 3 294
Circle -16777216 true false 30 30 240
Line -7500403 true 150 285 150 15
Line -7500403 true 15 150 285 150
Circle -7500403 true true 120 120 60
Line -7500403 true 216 40 79 269
Line -7500403 true 40 84 269 221
Line -7500403 true 40 216 269 79
Line -7500403 true 84 40 221 269
wolf
false
0
Polygon -16777216 true false 253 133 245 131 245 133
Polygon -7500403 true true 2 194 13 197 30 191 38 193 38 205 20 226 20 257 27 265 38 266 40 260 31 253 31 230 60 206 68 198 75 209 66 228 65 243 82 261 84 268 100 267 103 261 77 239 79 231 100 207 98 196 119 201 143 202 160 195 166 210 172 213 173 238 167 251 160 248 154 265 169 264 178 247 186 240 198 260 200 271 217 271 219 262 207 258 195 230 192 198 210 184 227 164 242 144 259 145 284 151 277 141 293 140 299 134 297 127 273 119 270 105
Polygon -7500403 true true -1 195 14 180 36 166 40 153 53 140 82 131 134 133 159 126 188 115 227 108 236 102 238 98 268 86 269 92 281 87 269 103 269 113
x
false
0
Polygon -7500403 true true 270 75 225 30 30 225 75 270
Polygon -7500403 true true 30 75 75 30 270 225 225 270
@#$#@#$#@
NetLogo 5.1.0
@#$#@#$#@
@#$#@#$#@
@#$#@#$#@
@#$#@#$#@
@#$#@#$#@
default
0.0
-0.2 0 0.0 1.0
0.0 1 1.0 0.0
0.2 0 0.0 1.0
link direction
true
0
Line -7500403 true 150 150 90 180
Line -7500403 true 150 150 210 180
@#$#@#$#@
0
@#$#@#$#@
| NetLogo | 5 | SeoncheolPark/sc-book | NetLogo/SimpleWorldVersion1.nlogo | [
"MIT"
] |
/*
* Copyright (c) 2018-2020, Andreas Kling <kling@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#pragma once
#include <AK/Forward.h>
#include <AK/Function.h>
#include <AK/HashMap.h>
#include <AK/Noncopyable.h>
#include <AK/NonnullOwnPtr.h>
#include <AK/NonnullRefPtr.h>
#include <AK/Time.h>
#include <AK/Vector.h>
#include <AK/WeakPtr.h>
#include <LibCore/DeferredInvocationContext.h>
#include <LibCore/Event.h>
#include <LibCore/Forward.h>
#include <sys/time.h>
#include <sys/types.h>
namespace Core {
class EventLoop {
public:
enum class MakeInspectable {
No,
Yes,
};
explicit EventLoop(MakeInspectable = MakeInspectable::No);
~EventLoop();
int exec();
enum class WaitMode {
WaitForEvents,
PollForEvents,
};
// processe events, generally called by exec() in a loop.
// this should really only be used for integrating with other event loops
void pump(WaitMode = WaitMode::WaitForEvents);
void spin_until(Function<bool()>);
void post_event(Object& receiver, NonnullOwnPtr<Event>&&);
static EventLoop& main();
static EventLoop& current();
bool was_exit_requested() const { return m_exit_requested; }
static int register_timer(Object&, int milliseconds, bool should_reload, TimerShouldFireWhenNotVisible);
static bool unregister_timer(int timer_id);
static void register_notifier(Badge<Notifier>, Notifier&);
static void unregister_notifier(Badge<Notifier>, Notifier&);
void quit(int);
void unquit();
void take_pending_events_from(EventLoop& other)
{
m_queued_events.extend(move(other.m_queued_events));
}
static void wake();
static int register_signal(int signo, Function<void(int)> handler);
static void unregister_signal(int handler_id);
// Note: Boost uses Parent/Child/Prepare, but we don't really have anything
// interesting to do in the parent or before forking.
enum class ForkEvent {
Child,
};
static void notify_forked(ForkEvent);
static bool has_been_instantiated();
void deferred_invoke(Function<void()> invokee)
{
auto context = DeferredInvocationContext::construct();
post_event(context, make<Core::DeferredInvocationEvent>(context, move(invokee)));
}
private:
void wait_for_event(WaitMode);
Optional<Time> get_next_timer_expiration();
static void dispatch_signal(int);
static void handle_signal(int);
struct QueuedEvent {
AK_MAKE_NONCOPYABLE(QueuedEvent);
public:
QueuedEvent(Object& receiver, NonnullOwnPtr<Event>);
QueuedEvent(QueuedEvent&&);
~QueuedEvent();
WeakPtr<Object> receiver;
NonnullOwnPtr<Event> event;
};
Vector<QueuedEvent, 64> m_queued_events;
static pid_t s_pid;
bool m_exit_requested { false };
int m_exit_code { 0 };
static int s_wake_pipe_fds[2];
struct Private;
NonnullOwnPtr<Private> m_private;
};
inline void deferred_invoke(Function<void()> invokee)
{
EventLoop::current().deferred_invoke(move(invokee));
}
}
| C | 5 | r00ster91/serenity | Userland/Libraries/LibCore/EventLoop.h | [
"BSD-2-Clause"
] |
"""The discovery flow helper."""
from __future__ import annotations
from collections.abc import Coroutine
from typing import Any
from homeassistant.const import EVENT_HOMEASSISTANT_STARTED
from homeassistant.core import CoreState, Event, HomeAssistant, callback
from homeassistant.data_entry_flow import FlowResult
from homeassistant.loader import bind_hass
from homeassistant.util.async_ import gather_with_concurrency
FLOW_INIT_LIMIT = 2
DISCOVERY_FLOW_DISPATCHER = "discovery_flow_disptacher"
@bind_hass
@callback
def async_create_flow(
hass: HomeAssistant, domain: str, context: dict[str, Any], data: Any
) -> None:
"""Create a discovery flow."""
if hass.state == CoreState.running:
if init_coro := _async_init_flow(hass, domain, context, data):
hass.async_create_task(init_coro)
return
if DISCOVERY_FLOW_DISPATCHER not in hass.data:
dispatcher = hass.data[DISCOVERY_FLOW_DISPATCHER] = FlowDispatcher(hass)
dispatcher.async_setup()
else:
dispatcher = hass.data[DISCOVERY_FLOW_DISPATCHER]
return dispatcher.async_create(domain, context, data)
@callback
def _async_init_flow(
hass: HomeAssistant, domain: str, context: dict[str, Any], data: Any
) -> Coroutine[None, None, FlowResult] | None:
"""Create a discovery flow."""
# Avoid spawning flows that have the same initial discovery data
# as ones in progress as it may cause additional device probing
# which can overload devices since zeroconf/ssdp updates can happen
# multiple times in the same minute
if hass.config_entries.flow.async_has_matching_flow(domain, context, data):
return None
return hass.config_entries.flow.async_init(domain, context=context, data=data)
class FlowDispatcher:
"""Dispatch discovery flows."""
def __init__(self, hass: HomeAssistant) -> None:
"""Init the discovery dispatcher."""
self.hass = hass
self.pending_flows: list[tuple[str, dict[str, Any], Any]] = []
@callback
def async_setup(self) -> None:
"""Set up the flow disptcher."""
self.hass.bus.async_listen_once(EVENT_HOMEASSISTANT_STARTED, self.async_start)
@callback
def async_start(self, event: Event) -> None:
"""Start processing pending flows."""
self.hass.data.pop(DISCOVERY_FLOW_DISPATCHER)
self.hass.async_create_task(self._async_process_pending_flows())
async def _async_process_pending_flows(self) -> None:
"""Process any pending discovery flows."""
init_coros = [_async_init_flow(self.hass, *flow) for flow in self.pending_flows]
await gather_with_concurrency(
FLOW_INIT_LIMIT,
*[init_coro for init_coro in init_coros if init_coro is not None],
)
@callback
def async_create(self, domain: str, context: dict[str, Any], data: Any) -> None:
"""Create and add or queue a flow."""
self.pending_flows.append((domain, context, data))
| Python | 5 | MrDelik/core | homeassistant/helpers/discovery_flow.py | [
"Apache-2.0"
] |
#include "caffe2/core/net_async_task_graph.h"
#include "caffe2/core/net_parallel.h"
namespace caffe2 {
AsyncTaskGraph::AsyncTaskGraph(
ExecutorHelper* helper,
const ExecutionOptions& options)
: helper_(helper), options_(options), frozen_(false) {}
bool AsyncTaskGraph::CreateNode(
int node_id,
const std::vector<OperatorBase*>& ops) {
CAFFE_ENFORCE(!frozen_);
if (!nodes_.count(node_id)) {
nodes_[node_id] = std::make_unique<AsyncTask>(ops);
return true;
} else {
return false;
}
}
bool AsyncTaskGraph::AddDependency(
int child_node_id,
const std::vector<int>& parent_node_ids) {
CAFFE_ENFORCE(!frozen_);
CAFFE_ENFORCE(!parent_node_ids.empty());
CAFFE_ENFORCE(nodes_.count(child_node_id));
for (auto node_id : parent_node_ids) {
CAFFE_ENFORCE(nodes_.count(node_id));
}
CAFFE_ENFORCE(!parents_.count(child_node_id));
auto* child_task = nodes_[child_node_id].get();
auto child_device = child_task->GetDeviceOption();
std::vector<AsyncTaskFuture*> parent_futures;
for (auto node_id : parent_node_ids) {
parents_[child_node_id].insert(node_id);
children_[node_id].insert(child_node_id);
parent_futures.push_back(&nodes_[node_id]->GetFuture());
}
AsyncTaskFuture* parents_future = nullptr;
if (parent_futures.size() > 1) {
edge_futures_.push_back(
std::make_unique<AsyncTaskFuture>(parent_futures));
parents_future = edge_futures_.back().get();
} else {
CAFFE_ENFORCE_EQ(parent_futures.size(), 1);
parents_future = parent_futures.back();
}
// TODO: CUDA polling
parents_future->SetCallback(
[this, child_task, child_device](const AsyncTaskFuture* f) {
CAFFE_ENFORCE(f->IsCompleted());
if (!f->IsFailed()) {
// if we're in the correct thread pool and DFS scheduling is enabled,
// immediately call task inline, otherwise send task into thread pool
auto* pool = helper_->GetPool(child_device);
if (pool->inThreadPool() && options_.use_dfs_scheduling_) {
child_task->Run(options_);
} else {
pool->run([this, child_task]() { child_task->Run(options_); });
}
} else {
// skip task execution and propagate error further
child_task->GetFuture().SetCompleted(f->ErrorMessage().c_str());
}
});
return true;
}
void AsyncTaskGraph::FreezeGraph() {
if (frozen_) {
return;
}
CAFFE_ENFORCE(!run_future_);
CAFFE_ENFORCE(root_tasks_.empty());
std::vector<AsyncTaskFuture*> final_futures;
for (auto& kv : nodes_) {
auto task_id = kv.first;
auto* task = kv.second.get();
if (parents_[task_id].empty()) {
root_tasks_.push_back(task);
}
if (children_[task_id].empty()) {
auto& future = task->GetFuture();
final_futures.push_back(&future);
}
}
CAFFE_ENFORCE(!root_tasks_.empty());
CAFFE_ENFORCE(!final_futures.empty());
run_future_ = std::make_unique<AsyncTaskFuture>(final_futures);
frozen_ = true;
}
AsyncTaskFuture* AsyncTaskGraph::ExecuteGraph() {
CAFFE_ENFORCE(frozen_);
CAFFE_ENFORCE(run_future_ && !run_future_->IsCompleted());
// TODO: run root tasks inline in inference mode
for (auto* task : root_tasks_) {
auto task_device = task->GetDeviceOption();
helper_->GetPool(task_device)->run([this, task]() { task->Run(options_); });
}
return run_future_.get();
}
AsyncTaskFuture* AsyncTaskGraph::GetFuture() {
CAFFE_ENFORCE(frozen_);
return run_future_.get();
}
void AsyncTaskGraph::Reset() {
CAFFE_ENFORCE(frozen_);
for (auto& kv : nodes_) {
kv.second->Reset();
}
for (auto& future : edge_futures_) {
future->ResetState();
}
if (run_future_) {
run_future_->ResetState();
}
}
}; // namespace caffe2
| C++ | 4 | Hacky-DH/pytorch | caffe2/core/net_async_task_graph.cc | [
"Intel"
] |
auto elseifchain()
{
bool a, b, c;
if (a)
{
}
else if (b)
{
}
else if (c)
{
}
}
| D | 2 | deadalnix/dmd | test/compilable/extra-files/header3.di | [
"BSL-1.0"
] |
@app
mockapp
@tables
accounts
accountID *String
pets
accountID *String
| Arc | 2 | karlwestin/sandbox | test/mock/external-db/.arc | [
"Apache-2.0"
] |
/*---------------------------------------------------------------------------------------------
* Copyright (c) Microsoft Corporation. All rights reserved.
* Licensed under the MIT License. See License.txt in the project root for license information.
*--------------------------------------------------------------------------------------------*/
import { BaseTextEditorModel } from 'vs/workbench/common/editor/textEditorModel';
import { URI } from 'vs/base/common/uri';
import { IModeService } from 'vs/editor/common/services/modeService';
import { IModelService } from 'vs/editor/common/services/modelService';
import { ILanguageDetectionService } from 'vs/workbench/services/languageDetection/common/languageDetectionWorkerService';
import { IAccessibilityService } from 'vs/platform/accessibility/common/accessibility';
/**
* An editor model for in-memory, readonly text content that
* is backed by an existing editor model.
*/
export class TextResourceEditorModel extends BaseTextEditorModel {
constructor(
resource: URI,
@IModeService modeService: IModeService,
@IModelService modelService: IModelService,
@ILanguageDetectionService languageDetectionService: ILanguageDetectionService,
@IAccessibilityService accessibilityService: IAccessibilityService,
) {
super(modelService, modeService, languageDetectionService, accessibilityService, resource);
}
override dispose(): void {
// force this class to dispose the underlying model
if (this.textEditorModelHandle) {
this.modelService.destroyModel(this.textEditorModelHandle);
}
super.dispose();
}
}
| TypeScript | 5 | kklt2002/vscode | src/vs/workbench/common/editor/textResourceEditorModel.ts | [
"MIT"
] |
package com.baeldung.jna;
import static org.junit.jupiter.api.Assertions.*;
import org.junit.jupiter.api.Test;
import com.sun.jna.Native;
import com.sun.jna.Platform;
class CMathUnitTest {
@Test
void whenCallNative_thenSuccess() {
CMath lib = Native.load(Platform.isWindows() ? "msvcrt" : "c", CMath.class);
double result = lib.cosh(0);
assertEquals(1.0,result);
}
}
| Java | 4 | DBatOWL/tutorials | java-native/src/test/java/com/baeldung/jna/CMathUnitTest.java | [
"MIT"
] |
#tag Class
Protected Class OptionUnrecognizedKeyException
Inherits OptionParserException
#tag Note, Name = Overview
Raised by `OptionParser.Parse` when a option is supplied on the command line that `OptionParser` has not been maded aware of. i.e. the
user supplied a key the program is not prepared to handle.
#tag EndNote
#tag ViewBehavior
#tag ViewProperty
Name="ErrorNumber"
Group="Behavior"
InitialValue="0"
Type="Integer"
#tag EndViewProperty
#tag ViewProperty
Name="Index"
Visible=true
Group="ID"
InitialValue="-2147483648"
Type="Integer"
#tag EndViewProperty
#tag ViewProperty
Name="Left"
Visible=true
Group="Position"
InitialValue="0"
Type="Integer"
#tag EndViewProperty
#tag ViewProperty
Name="Message"
Group="Behavior"
Type="String"
EditorType="MultiLineEditor"
#tag EndViewProperty
#tag ViewProperty
Name="Name"
Visible=true
Group="ID"
Type="String"
#tag EndViewProperty
#tag ViewProperty
Name="Reason"
Group="Behavior"
Type="Text"
#tag EndViewProperty
#tag ViewProperty
Name="Super"
Visible=true
Group="ID"
Type="String"
#tag EndViewProperty
#tag ViewProperty
Name="Top"
Visible=true
Group="Position"
InitialValue="0"
Type="Integer"
#tag EndViewProperty
#tag EndViewBehavior
End Class
#tag EndClass
| Xojo | 4 | seanarneyWI/XOJO-Redis | Shared Resources/OptionParser/OptionUnrecognizedKeyException.xojo_code | [
"MIT"
] |
%YAML 1.1
# ROS Dockerfile database
---
platform:
os_name: $os_name
os_code_name: $os_code_name
rosdistro_name: $release_name
user_name: ros
maintainer_name:
arch: amd64
type: distribution
version: False
release: ros
ros_version: 1
| EmberScript | 3 | christophebedard/docker_images-1 | ros/.config/legacy/platform.yaml.em | [
"Apache-2.0"
] |
digraph postponedLambdas_kt {
graph [nodesep=3]
node [shape=box penwidth=2]
edge [penwidth=2]
subgraph cluster_0 {
color=red
0 [label="Enter function foo" style="filled" fillcolor=red];
subgraph cluster_1 {
color=blue
1 [label="Enter block"];
2 [label="Exit block"];
}
3 [label="Exit function foo" style="filled" fillcolor=red];
}
0 -> {1};
1 -> {2};
2 -> {3};
subgraph cluster_2 {
color=red
4 [label="Enter function test" style="filled" fillcolor=red];
subgraph cluster_3 {
color=blue
5 [label="Enter block"];
6 [label="Access variable R|<local>/a|"];
7 [label="Access variable R|<local>/b|"];
8 [label="Postponed enter to lambda"];
subgraph cluster_4 {
color=blue
13 [label="Enter function anonymousFunction" style="filled" fillcolor=red];
subgraph cluster_5 {
color=blue
14 [label="Enter block"];
15 [label="Const: String()"];
16 [label="Exit block"];
}
17 [label="Exit function anonymousFunction" style="filled" fillcolor=red];
}
9 [label="Postponed exit from lambda"];
10 [label="Function call: R|/foo|(...)"];
11 [label="Exit block"];
}
12 [label="Exit function test" style="filled" fillcolor=red];
}
4 -> {5};
5 -> {6};
6 -> {7};
7 -> {8};
8 -> {13};
8 -> {9} [color=red];
8 -> {13} [style=dashed];
9 -> {10};
10 -> {11};
11 -> {12};
13 -> {17 14};
14 -> {15};
15 -> {16};
16 -> {17};
17 -> {9} [color=green];
17 -> {13} [color=green style=dashed];
}
| Graphviz (DOT) | 4 | Mu-L/kotlin | compiler/fir/analysis-tests/testData/resolve/cfg/postponedLambdas.dot | [
"ECL-2.0",
"Apache-2.0"
] |
ocv_clear_vars(HAVE_ONNX)
set(ONNXRT_ROOT_DIR "" CACHE PATH "ONNX Runtime install directory")
# For now, check the old name ORT_INSTALL_DIR
if(ORT_INSTALL_DIR AND NOT ONNXRT_ROOT_DIR)
set(ONNXRT_ROOT_DIR ${ORT_INSTALL_DIR})
endif()
if(ONNXRT_ROOT_DIR)
find_library(ORT_LIB onnxruntime
${ONNXRT_ROOT_DIR}/lib
CMAKE_FIND_ROOT_PATH_BOTH)
find_path(ORT_INCLUDE onnxruntime_cxx_api.h
${ONNXRT_ROOT_DIR}/include/onnxruntime/core/session
CMAKE_FIND_ROOT_PATH_BOTH)
endif()
if(ORT_LIB AND ORT_INCLUDE)
set(HAVE_ONNX TRUE)
# For CMake output only
set(ONNX_LIBRARIES "${ORT_LIB}" CACHE STRING "ONNX Runtime libraries")
set(ONNX_INCLUDE_DIR "${ORT_INCLUDE}" CACHE STRING "ONNX Runtime include path")
# Link target with associated interface headers
set(ONNX_LIBRARY "onnxruntime" CACHE STRING "ONNX Link Target")
ocv_add_library(${ONNX_LIBRARY} SHARED IMPORTED)
set_target_properties(${ONNX_LIBRARY} PROPERTIES
INTERFACE_INCLUDE_DIRECTORIES ${ORT_INCLUDE}
IMPORTED_LOCATION ${ORT_LIB}
IMPORTED_IMPLIB ${ORT_LIB})
endif()
if(NOT HAVE_ONNX)
ocv_clear_vars(HAVE_ONNX ORT_LIB ORT_INCLUDE_DIR)
endif()
| CMake | 4 | lefatoum2/opencv | cmake/FindONNX.cmake | [
"Apache-2.0"
] |
(declare-const needle String)
(declare-const haystack String)
(assert (> (str.len needle) 3))
(assert (> (str.len haystack) 10))
(assert (not (= needle haystack)))
(assert (str.contains haystack needle))
(check-sat)
| SMT | 4 | mauguignard/cbmc | regression/smt2_strings/contains_input_sat/contains_input_sat.smt2 | [
"BSD-4-Clause"
] |
(ns wisp.test.util
"Kind of ugly hack for defining *failures* globals"
(:require [wisp.sequence :refer [count]]
[wisp.ast :refer [pr-str symbol]]))
(def ^:dynamic *passed* [])
(def ^:dynamic *failed* [])
;; Since macros so far don't bind scope we need this hack.
(set! global.*failed* *failed*)
(set! global.*passed* *passed*)
(set! global.symbol symbol)
(set! global.pr-str pr-str)
(.once process :exit (fn []
(print "\nPassed: " (count *passed*)
" Failed: " (count *failed*))
(if (> (count *failed*) 0)
(.exit process 1))))
(defmacro is
"Generic assertion macro. 'form' is any predicate test.
'msg' is an optional message to attach to the assertion.
Example: (is (= 4 (+ 2 2)) \"Two plus two should be 4\")
Special forms:
(is (thrown? c body)) checks that an instance of c is thrown from
body, fails if not; then returns the thing thrown.
(is (thrown-with-msg? c re body)) checks that an instance of c is
thrown AND that the message on the exception matches (with
re-find) the regular expression re."
([form] `(is ~form ""))
([form msg]
(let [op (first form)
actual (second form)
expected (third form)]
`(if ~form
(do
(.push *passed* ~msg)
true)
(do
(.push *failed* '~form)
(console.error (str "Fail: " ~msg "\n"
(pr-str '~form) "\n"
"expected: "
(pr-str '~expected) "\n"
" actual: "
(pr-str (try ~actual (catch error (list 'throw (list 'Error (.-message error))))))))
false)))))
(defmacro thrown?
[expression pattern]
`(try
(do
~expression
false)
(catch error
(if (re-find ~pattern (str error))
true
false))))
| wisp | 5 | LeXofLeviafan/wisp | test/util.wisp | [
"BSD-3-Clause"
] |
(*
Module: Trapperkeeper
Parses Trapperkeeper configuration files
Author: Raphael Pinson <raphael.pinson@camptocamp.com>
About: License
This file is licenced under the LGPL v2+, like the rest of Augeas.
About: Lens Usage
To be documented
About: Configuration files
This lens applies to Trapperkeeper webservice configuration files. See <filter>.
About: Examples
The <Test_Trapperkeeper> file contains various examples and tests.
*)
module Trapperkeeper =
autoload xfm
(************************************************************************
* Group: USEFUL PRIMITIVES
*************************************************************************)
(* View: empty *)
let empty = Util.empty
(* View: comment *)
let comment = Util.comment
(* View: sep *)
let sep = del /[ \t]*[:=]/ ":"
(* View: sep_with_spc *)
let sep_with_spc = sep . Sep.opt_space
(************************************************************************
* Group: BLOCKS (FROM 1.2, FOR 0.10 COMPATIBILITY)
*************************************************************************)
(* Variable: block_ldelim_newlines_re *)
let block_ldelim_newlines_re = /[ \t\n]+\{([ \t\n]*\n)?/
(* Variable: block_rdelim_newlines_re *)
let block_rdelim_newlines_re = /[ \t]*\}/
(* Variable: block_ldelim_newlines_default *)
let block_ldelim_newlines_default = "\n{\n"
(* Variable: block_rdelim_newlines_default *)
let block_rdelim_newlines_default = "}"
(************************************************************************
* View: block_newline
* A block enclosed in brackets, with newlines forced
* and indentation defaulting to a tab.
*
* Parameters:
* entry:lens - the entry to be stored inside the block.
* This entry should not include <Util.empty>,
* <Util.comment> or <Util.comment_noindent>,
* should be indented and finish with an eol.
************************************************************************)
let block_newlines (entry:lens) (comment:lens) =
del block_ldelim_newlines_re block_ldelim_newlines_default
. ((entry | comment) . (Util.empty | entry | comment)*)?
. del block_rdelim_newlines_re block_rdelim_newlines_default
(************************************************************************
* Group: ENTRY TYPES
*************************************************************************)
let opt_dquot (lns:lens) = del /"?/ "" . lns . del /"?/ ""
(* View: simple *)
let simple = [ Util.indent . label "@simple" . opt_dquot (store /[A-Za-z0-9_.\/-]+/) . sep_with_spc
. [ label "@value" . opt_dquot (store /[^,"\[ \t\n]+/) ]
. Util.eol ]
(* View: array *)
let array =
let lbrack = Util.del_str "["
in let rbrack = Util.del_str "]"
in let opt_space = del /[ \t]*/ ""
in let comma = opt_space . Util.del_str "," . opt_space
in let elem = [ seq "elem" . opt_dquot (store /[^,"\[ \t\n]+/) ]
in let elems = counter "elem" . Build.opt_list elem comma
in [ Util.indent . label "@array" . store Rx.word
. sep_with_spc . lbrack . Sep.opt_space
. (elems . Sep.opt_space)?
. rbrack . Util.eol ]
(* View: hash *)
let hash (lns:lens) = [ Util.indent . label "@hash" . store Rx.word . sep
. block_newlines lns Util.comment
. Util.eol ]
(************************************************************************
* Group: ENTRY
*************************************************************************)
(* Just for typechecking *)
let entry_no_rec = hash (simple|array)
(* View: entry *)
let rec entry = hash (entry|simple|array)
(************************************************************************
* Group: LENS AND FILTER
*************************************************************************)
(* View: lns *)
let lns = (empty|comment)* . (entry . (empty|comment)*)*
(* Variable: filter *)
let filter = incl "/etc/puppetserver/conf.d/*"
. incl "/etc/puppetlabs/puppetserver/conf.d/*"
. Util.stdexcl
let xfm = transform lns filter
| Augeas | 5 | theredcat/puppet-puppetserver | files/lenses/trapperkeeper.aug | [
"Apache-2.0"
] |
2019-09-18 23:32:23 kky HELP REGISTER
2019-09-18 23:32:24 -- NickServ: ***** NickServ Help *****
2019-09-18 23:32:24 -- NickServ: Help for REGISTER:
2019-09-18 23:32:24 -- NickServ:
2019-09-18 23:32:24 -- NickServ: This will register your current nickname with NickServ.
2019-09-18 23:32:24 -- NickServ: This will allow you to assert some form of identity on
2019-09-18 23:32:24 -- NickServ: the network and to be added to access lists. Furthermore,
2019-09-18 23:32:24 -- NickServ: NickServ will warn users using your nick without
2019-09-18 23:32:24 -- NickServ: identifying and allow you to kill ghosts.
2019-09-18 23:32:24 -- NickServ: The password is a case-sensitive password that you make
2019-09-18 23:32:24 -- NickServ: up. Please write down or memorize your password! You
2019-09-18 23:32:24 -- NickServ: will need it later to change settings.
2019-09-18 23:32:24 -- NickServ:
2019-09-18 23:32:24 -- NickServ: You have to confirm the email address. To do this,
2019-09-18 23:32:24 -- NickServ: follow the instructions in the message sent to the email
2019-09-18 23:32:24 -- NickServ: address.
2019-09-18 23:32:24 -- NickServ:
2019-09-18 23:32:24 -- NickServ: Syntax: REGISTER <password> <email-address>
2019-09-18 23:32:24 -- NickServ:
2019-09-18 23:32:24 -- NickServ: Examples:
2019-09-18 23:32:24 -- NickServ: /msg NickServ REGISTER bar foo@bar.com
2019-09-18 23:32:24 -- NickServ: ***** End of Help *****
2019-09-18 23:33:38 kky REGISTER Qwertylol y.prateek.y@gmail.com
2019-09-18 23:33:40 -- NickServ: An email containing nickname activation instructions has been sent to y.prateek.y@gmail.com.
2019-09-18 23:33:40 -- NickServ: If you do not complete registration within one day, your nickname will expire.
2019-09-18 23:33:40 -- NickServ: kky is now registered to y.prateek.y@gmail.com, with the password Qwertylol.
2019-09-18 23:33:40 -- NickServ:
2019-09-18 23:33:40 -- NickServ: For frequently-asked questions about the network, please see the
2019-09-18 23:33:40 -- NickServ: Knowledge Base page (http://freenode.net/kb/all). Should you need more
2019-09-18 23:33:40 -- NickServ: help you can /join #freenode to find network staff.
2019-09-18 23:35:21 -- irc: disconnected from server
| IRC log | 2 | akshaykumar23399/DOTS | weechat/logs/irc.freenode.nickserv.weechatlog | [
"Unlicense"
] |
local bit = require("bit")
local ffi = require("ffi")
local band = bit.band
local bnot = bit.bnot
local m = {}
local Uint8Bound = 256 -- bound is the max uintN + 1
local Uint16Bound = 65536
local Uint32Bound = 4294967296
if not table.unpack then
table.unpack = unpack
end
if not table.pack then
table.pack = pack
end
m.GetAlignSize = function(k, size)
return band((bnot(k) + 1), (size - 1))
end
local function pack_I1(n)
return string.char(n)
end
local function pack_i1(n)
if n < 0 then
n = Uint8Bound + n
end
return pack_I1(n)
end
local function unpack_I1(n, pos)
return string.byte(n, pos)
end
local function unpack_i1(n, pos)
local res = unpack_I1(n, pos)
if res >= Uint8Bound / 2 then
return res - Uint8Bound
end
return res
end
local b2 = ffi.new("unsigned char[2]")
local function pack_I2(n)
for i = 0, 1 do
b2[i] = bit.band(n, 255)
n = bit.rshift(n, 8)
end
return ffi.string(b2, 2)
end
local function pack_i2(n)
if n < 0 then
n = Uint16Bound + n
end
return pack_I2(n)
end
local function unpack_I2(n, pos)
local a, b = string.byte(n, pos, pos + 1)
return b * Uint8Bound + a
end
local function unpack_i2(n, pos)
local res = unpack_I2(n, pos)
if res >= Uint16Bound / 2 then
return res - Uint16Bound
end
return res
end
local b4 = ffi.new("unsigned char[4]")
local function pack_I4(n)
for i = 0, 3 do
b4[i] = bit.band(n, 255)
n = bit.rshift(n, 8)
end
return ffi.string(b4, 4)
end
local function pack_i4(n)
if n < 0 then
n = Uint32Bound + n
end
return pack_I4(n)
end
local function unpack_I4(n, pos)
local a, b, c, d = string.byte(n, pos, pos + 3)
return Uint8Bound * (Uint8Bound * ((Uint8Bound * d) + c) + b) + a
end
local function unpack_i4(n, pos)
local res = unpack_I4(n, pos)
if res >= Uint32Bound / 2 then
return res - Uint32Bound
end
return res
end
local b8 = ffi.new("unsigned char[8]")
local function pack_I8(n)
n = ffi.cast("unsigned long long", n)
local hi = math.floor(tonumber(n / Uint32Bound))
local li = n % Uint32Bound
for i = 0, 3 do
b8[i] = bit.band(li, 255)
li = bit.rshift(li, 8)
end
for i = 4, 7 do
b8[i] = bit.band(hi, 255)
hi = bit.rshift(hi, 8)
end
return ffi.string(b8, 8)
end
local function pack_i8(n)
n = ffi.cast("signed long long", n)
return pack_I8(n)
end
local function unpack_I8(n, pos)
local a, b, c, d = string.byte(n, pos, pos + 3)
local li = Uint8Bound * (Uint8Bound * ((Uint8Bound * d) + c) + b) + a
local a, b, c, d = string.byte(n, pos + 4, pos + 7)
local hi = Uint8Bound * (Uint8Bound * ((Uint8Bound * d) + c) + b) + a
return ffi.cast("unsigned long long", hi) * Uint32Bound + li
end
local function unpack_i8(n, pos)
local res = unpack_I8(n, pos)
return ffi.cast("signed long long", res)
end
local bf = ffi.new("float[1]")
local function pack_f(n)
bf[0] = n
return ffi.string(bf, 4)
end
local function unpack_f(n, pos)
ffi.copy(bf, ffi.cast("char *", n) + pos - 1, 4)
return tonumber(bf[0])
end
local bd = ffi.new("double[1]")
local function pack_d(n)
bd[0] = n
return ffi.string(bd, 8)
end
local function unpack_d(n, pos)
ffi.copy(bd, ffi.cast("char *", n) + pos - 1, 8)
return tonumber(bd[0])
end
m.string_pack = function(fmt, i, ...)
if fmt == "<I1" then
return pack_I1(i)
elseif fmt == "<I2" then
return pack_I2(i)
elseif fmt == "<I4" then
return pack_I4(i)
elseif fmt == "<I8" then
return pack_I8(i)
elseif fmt == "<i1" then
return pack_i1(i)
elseif fmt == "<i2" then
return pack_i2(i)
elseif fmt == "<i4" then
return pack_i4(i)
elseif fmt == "<i8" then
return pack_i8(i)
elseif fmt == "<f" then
return pack_f(i)
elseif fmt == "<d" then
return pack_d(i)
else
error(string.format("FIXME: support fmt %s", fmt))
end
end
m.string_unpack = function(fmt, s, pos)
if not pos then
pos = 1
end
if fmt == "<I1" then
return unpack_I1(s, pos)
elseif fmt == "<I2" then
return unpack_I2(s, pos)
elseif fmt == "<I4" then
return unpack_I4(s, pos)
elseif fmt == "<I8" then
return unpack_I8(s, pos)
elseif fmt == "<i1" then
return unpack_i1(s, pos)
elseif fmt == "<i2" then
return unpack_i2(s, pos)
elseif fmt == "<i4" then
return unpack_i4(s, pos)
elseif fmt == "<i8" then
return unpack_i8(s, pos)
elseif fmt == "<f" then
return unpack_f(s, pos)
elseif fmt == "<d" then
return unpack_d(s, pos)
else
error(string.format("FIXME: support fmt %s", fmt))
end
end
return m
| Lua | 4 | chi-w-ng/flatbuffers | lua/flatbuffers/compat_luajit.lua | [
"Apache-2.0"
] |
#pragma once
#include "contrib/cryptomb/private_key_providers/source/ipp_crypto.h"
#include "crypto_mb/cpu_features.h"
#include "crypto_mb/ec_nistp256.h"
#include "crypto_mb/rsa.h"
namespace Envoy {
namespace Extensions {
namespace PrivateKeyMethodProvider {
namespace CryptoMb {
class IppCryptoImpl : public virtual IppCrypto {
public:
int mbxIsCryptoMbApplicable(uint64_t features) override {
return ::mbx_is_crypto_mb_applicable(features);
}
uint32_t mbxRsaPrivateCrtSslMb8(const uint8_t* const from_pa[8], uint8_t* const to_pa[8],
const BIGNUM* const p_pa[8], const BIGNUM* const q_pa[8],
const BIGNUM* const dp_pa[8], const BIGNUM* const dq_pa[8],
const BIGNUM* const iq_pa[8], int expected_rsa_bitsize) override {
return ::mbx_rsa_private_crt_ssl_mb8(from_pa, to_pa, p_pa, q_pa, dp_pa, dq_pa, iq_pa,
expected_rsa_bitsize);
}
uint32_t mbxRsaPublicSslMb8(const uint8_t* const from_pa[8], uint8_t* const to_pa[8],
const BIGNUM* const e_pa[8], const BIGNUM* const n_pa[8],
int expected_rsa_bitsize) override {
return ::mbx_rsa_public_ssl_mb8(from_pa, to_pa, e_pa, n_pa, expected_rsa_bitsize);
}
bool mbxGetSts(uint32_t status, unsigned req_num) override {
if (MBX_GET_STS(status, req_num) == MBX_STATUS_OK) {
return true;
}
return false;
};
};
} // namespace CryptoMb
} // namespace PrivateKeyMethodProvider
} // namespace Extensions
} // namespace Envoy
| C | 3 | dcillera/envoy | contrib/cryptomb/private_key_providers/source/ipp_crypto_impl.h | [
"Apache-2.0"
] |
INTERFACE zif_abapgit_gui_jumper
PUBLIC.
TYPES:
ty_bdcdata_tt TYPE STANDARD TABLE OF bdcdata WITH DEFAULT KEY.
METHODS jump
IMPORTING
!is_item TYPE zif_abapgit_definitions=>ty_item
!iv_sub_obj_name TYPE zif_abapgit_definitions=>ty_item-obj_name OPTIONAL
!iv_sub_obj_type TYPE zif_abapgit_definitions=>ty_item-obj_type OPTIONAL
!iv_line_number TYPE i OPTIONAL
!iv_new_window TYPE abap_bool DEFAULT abap_true
RETURNING
VALUE(rv_exit) TYPE abap_bool
RAISING
zcx_abapgit_exception.
METHODS jump_adt
IMPORTING
!is_item TYPE zif_abapgit_definitions=>ty_item
!iv_sub_obj_name TYPE zif_abapgit_definitions=>ty_item-obj_name
!iv_line_number TYPE i
RETURNING
VALUE(rv_exit) TYPE abap_bool
RAISING
zcx_abapgit_exception.
METHODS jump_batch_input
IMPORTING
!iv_tcode TYPE sy-tcode
!it_bdcdata TYPE ty_bdcdata_tt
!iv_new_window TYPE abap_bool DEFAULT abap_true
RAISING
zcx_abapgit_exception.
ENDINTERFACE.
| ABAP | 4 | IvxLars/abapGit | src/ui/zif_abapgit_gui_jumper.intf.abap | [
"MIT"
] |
/*
* Program type: Embedded Static SQL
*
* Description:
* This program declares and creates a new table.
* Some rows, describing a department structure,
* are added to the new table as a test.
*
* The table is created temporarily for figuring
* out which level in the department structure each
* department belongs too.
* The contents of this file are subject to the Interbase Public
* License Version 1.0 (the "License"); you may not use this file
* except in compliance with the License. You may obtain a copy
* of the License at http://www.Inprise.com/IPL.html
*
* Software distributed under the License is distributed on an
* "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, either express
* or implied. See the License for the specific language governing
* rights and limitations under the License.
*
* The Original Code was created by Inprise Corporation
* and its predecessors. Portions created by Inprise Corporation are
* Copyright (C) Inprise Corporation.
*
* All Rights Reserved.
* Contributor(s): ______________________________________.
*/
#include "example.h"
#include <stdlib.h>
#include <stdio.h>
void build_tree (void);
void pr_error (void);
EXEC SQL
BEGIN DECLARE SECTION;
EXEC SQL
END DECLARE SECTION;
int main (void)
{
char dept[4];
int lvl = 1;
/* Describe the new table's structure. */
EXEC SQL
DECLARE tmp_dept_tree TABLE (
dept_no CHAR(3) NOT NULL PRIMARY KEY,
tree_level INTEGER);
/* Drop the table in case it exists. Ignore error */
EXEC SQL
DROP TABLE tmp_dept_tree;
EXEC SQL
WHENEVER SQLERROR GO TO Error1;
/* Create the new table. */
printf ("creating tmp_dept_tree\n");
EXEC SQL
CREATE TABLE tmp_dept_tree (
dept_no CHAR(3) NOT NULL PRIMARY KEY,
tree_level INTEGER);
/* Fill the new table. */
build_tree();
/* Look at it */
EXEC SQL DECLARE dc CURSOR FOR
SELECT dept_no, tree_level
FROM tmp_dept_tree;
EXEC SQL
OPEN dc;
EXEC SQL
FETCH dc INTO :dept, :lvl;
while (SQLCODE == 0)
{
printf ("Dept = %s: Level = %d\n", dept, lvl);
EXEC SQL
FETCH dc INTO :dept, :lvl;
}
EXEC SQL
COMMIT RELEASE;
return 0;
Error1:
pr_error();
return 1;
}
/*
* For each department find its sub-departments and mark them
* with the next level number.
*/
void build_tree (void)
{
char dept[4];
int lvl = 1;
EXEC SQL
WHENEVER SQLERROR GO TO Error2;
/* Initialize the department structure by adding the first level. */
EXEC SQL
INSERT INTO tmp_dept_tree VALUES ('000', :lvl);
/* Declare the cursor for selecting all departments with level 'lvl'. */
EXEC SQL
DECLARE ds CURSOR FOR
SELECT dept_no
FROM tmp_dept_tree
WHERE tree_level = :lvl;
/* For each department with level 'lvl', find its sub-departments. */
while (SQLCODE == 0)
{
EXEC SQL
OPEN ds;
/* Initialize the next level. */
lvl++;
/* Add all the sub-departments of the next level to the table. */
for (;;)
{
EXEC SQL
FETCH ds INTO :dept;
if (SQLCODE == 100)
break;
EXEC SQL
INSERT INTO tmp_dept_tree
SELECT dept_no, :lvl
FROM department
WHERE head_dept = :dept;
}
EXEC SQL
CLOSE ds;
EXEC SQL
COMMIT;
/* Done, if no next level was created by the INSERT above. */
EXEC SQL
SELECT tree_level
FROM tmp_dept_tree
WHERE tree_level = :lvl;
if (SQLCODE == 100)
return;
}
Error2:
pr_error();
return;
}
/*
* Print any error and exit.
*/
void pr_error (void)
{
isc_print_sqlerror((short)SQLCODE, gds__status);
}
| Eiffel | 5 | jiemurat/delphimvcframework | unittests/general/Several/bin/firebird/examples/stat/stat4.e | [
"Apache-2.0"
] |
TCCommand:
vim.Comment("<cm_SrcComments>", "来源面板:显示文件备注")
vim.Comment("<cm_SrcShort>", "来源面板:列表")
vim.Comment("<cm_SrcLong>", "来源面板:详细信息")
vim.Comment("<cm_SrcTree>", "来源面板:树状视图")
vim.Comment("<cm_SrcQuickview>", "来源面板:快速查看")
vim.Comment("<cm_VerticalPanels>", "纵向排列面板")
vim.Comment("<cm_SrcQuickInternalOnly>", "来源面板:快速查看(不使用插件)")
vim.Comment("<cm_SrcHideQuickview>", "来源面板:关闭快速查看")
vim.Comment("<cm_SrcExecs>", "来源面板:仅程序文件")
vim.Comment("<cm_SrcAllFiles>", "来源面板:所有文件")
vim.Comment("<cm_SrcUserSpec>", "来源面板:仅自定义类型")
vim.Comment("<cm_SrcUserDef>", "来源面板:设置自定义类型")
vim.Comment("<cm_SrcByName>", "来源面板:按文件名排序")
vim.Comment("<cm_SrcByExt>", "来源面板:按扩展名排序")
vim.Comment("<cm_SrcBySize>", "来源面板:按大小排序")
vim.Comment("<cm_SrcByDateTime>", "来源面板:按时间排序")
vim.Comment("<cm_SrcUnsorted>", "来源面板:不排序")
vim.Comment("<cm_SrcNegOrder>", "来源面板:反向排序")
vim.Comment("<cm_SrcOpenDrives>", "来源面板:打开驱动器列表")
vim.Comment("<cm_SrcThumbs>", "来源面板:缩略图")
vim.Comment("<cm_SrcCustomViewMenu>", "来源面板:显示自定义列菜单")
vim.Comment("<cm_SrcPathFocus>", "来源面板:将光标移动到路径栏")
vim.Comment("<cm_SrcViewModeList>", "来源面板:显示视图模式菜单")
vim.Comment("<cm_LeftComments>", "左面板:显示文件备注")
vim.Comment("<cm_LeftShort>", "左面板:列表")
vim.Comment("<cm_LeftLong>", "左面板:详细信息")
vim.Comment("<cm_LeftTree>", "左面板:树状视图")
vim.Comment("<cm_LeftQuickview>", "左面板:快速查看")
vim.Comment("<cm_LeftQuickInternalOnly>", "左面板:快速查看(不使用插件)")
vim.Comment("<cm_LeftHideQuickview>", "左面板:关闭快速查看")
vim.Comment("<cm_LeftExecs>", "左面板:仅程序文件")
vim.Comment("<cm_LeftAllFiles>", "左面板:所有文件")
vim.Comment("<cm_LeftUserSpec>", "左面板:仅自定义类型")
vim.Comment("<cm_LeftUserDef>", "左面板:设置自定义类型")
vim.Comment("<cm_LeftByName>", "左面板:按文件名排序")
vim.Comment("<cm_LeftByExt>", "左面板:按扩展名排序")
vim.Comment("<cm_LeftBySize>", "左面板:按大小排序")
vim.Comment("<cm_LeftByDateTime>", "左面板:按时间排序")
vim.Comment("<cm_LeftUnsorted>", "左面板:不排序")
vim.Comment("<cm_LeftNegOrder>", "左面板:反向排序")
vim.Comment("<cm_LeftOpenDrives>", "左面板:打开驱动器列表")
vim.Comment("<cm_LeftPathFocus>", "左面板:将光标移动到路径栏")
vim.Comment("<cm_LeftDirBranch>", "左面板:展开所有文件夹")
vim.Comment("<cm_LeftDirBranchSel>", "左面板:仅展开选定的文件夹")
vim.Comment("<cm_LeftThumbs>", "左面板:缩略图")
vim.Comment("<cm_LeftCustomViewMenu>", "左面板:显示自定义列菜单")
vim.Comment("<cm_LeftViewModeList>", "左面板:显示视图模式菜单")
vim.Comment("<cm_RightComments>", "右面板:显示文件备注")
vim.Comment("<cm_RightShort>", "右面板:列表")
vim.Comment("<cm_RightLong>", "右面板:详细信息")
vim.Comment("<cm_RightTree>", "右面板:树状视图")
vim.Comment("<cm_RightQuickview>", "右面板:快速查看")
vim.Comment("<cm_RightQuickInternalOnly>", "右面板:快速查看(不使用插件)")
vim.Comment("<cm_RightHideQuickview>", "右面板:关闭快速查看")
vim.Comment("<cm_RightExecs>", "右面板:仅程序文件")
vim.Comment("<cm_RightAllFiles>", "右面板:所有文件")
vim.Comment("<cm_RightUserSpec>", "右面板:仅自定义类型")
vim.Comment("<cm_RightUserDef>", "右面板:设置自定义类型")
vim.Comment("<cm_RightByName>", "右面板:按文件名排序")
vim.Comment("<cm_RightByExt>", "右面板:按扩展名排序")
vim.Comment("<cm_RightBySize>", "右面板:按大小排序")
vim.Comment("<cm_RightByDateTime>", "右面板:按时间排序")
vim.Comment("<cm_RightUnsorted>", "右面板:不排序")
vim.Comment("<cm_RightNegOrder>", "右面板:反向排序")
vim.Comment("<cm_RightOpenDrives>", "右面板:打开驱动器列表")
vim.Comment("<cm_RightPathFocus>", "右面板:将光标移动到路径栏")
vim.Comment("<cm_RightDirBranch>", "右面板:展开所有文件夹")
vim.Comment("<cm_RightDirBranchSel>", "右面板:仅展开选定的文件夹")
vim.Comment("<cm_RightThumbs>", "右面板:缩略图")
vim.Comment("<cm_RightCustomViewMenu>", "右面板:显示自定义列菜单")
vim.Comment("<cm_RightViewModeList>", "右面板:显示视图模式菜单")
vim.Comment("<cm_List>", "查看文件")
vim.Comment("<cm_ListInternalOnly>", "查看单个文件(不使用插件/多媒体)")
vim.Comment("<cm_ListInternalMulti>", "查看所选文件(不使用插件/多媒体)")
vim.Comment("<cm_ListOnly>", "查看单个文件(使用插件/多媒体)")
vim.Comment("<cm_ListMulti>", "查看所选文件(使用插件/多媒体)")
vim.Comment("<cm_Edit>", "编辑")
vim.Comment("<cm_EditNewFile>", "新建并打开文本文件")
vim.Comment("<cm_EditFileMenu>", "显示新建文件上下文菜单")
vim.Comment("<cm_EditExistingFile>", "编辑光标处的文件(忽略 Shift 键)")
vim.Comment("<cm_Copy>", "复制")
vim.Comment("<cm_CopySamepanel>", "复制到当前面板")
vim.Comment("<cm_CopyOtherpanel>", "复制到另一面板")
vim.Comment("<cm_RenMov>", "重命名/移动")
vim.Comment("<cm_MkDir>", "新建文件夹(在来源面板)")
vim.Comment("<cm_MkDirOther>", "新建文件夹(在目标面板)")
vim.Comment("<cm_Delete>", "删除")
vim.Comment("<cm_TestArchive>", "测试压缩文件")
vim.Comment("<cm_PackFiles>", "压缩文件")
vim.Comment("<cm_UnpackFiles>", "解压缩文件")
vim.Comment("<cm_RenameOnly>", "重命名 (Shift+F6)")
vim.Comment("<cm_RenameSingleFile>", "重命名光标处的文件")
vim.Comment("<cm_MoveOnly>", "移动 (F6)")
vim.Comment("<cm_Properties>", "查看文件属性")
vim.Comment("<cm_ModernShare>", "Windows 10 现代共享对话框")
vim.Comment("<cm_CreateShortcut>", "创建快捷方式")
vim.Comment("<cm_Return>", "模拟按下 Enter 键")
vim.Comment("<cm_OpenAsUser>", "以其他用户身份运行程序")
vim.Comment("<cm_Split>", "拆分文件")
vim.Comment("<cm_Combine>", "合并文件")
vim.Comment("<cm_Encode>", "文件编码 (MIME、UUE、XXE)")
vim.Comment("<cm_Decode>", "文件解码 (MIME、UUE、XXE、BinHex)")
vim.Comment("<cm_CRCcreate>", "创建校验和文件")
vim.Comment("<cm_CRCcheck>", "验证校验和")
vim.Comment("<cm_SetAttrib>", "更改属性")
vim.Comment("<cm_Config>", "配置:布局")
vim.Comment("<cm_LayoutConfig>", "配置:布局")
vim.Comment("<cm_DisplayConfig>", "配置:显示")
vim.Comment("<cm_IconConfig>", "配置:图标")
vim.Comment("<cm_FontConfig>", "配置:字体")
vim.Comment("<cm_ColorConfig>", "配置:颜色")
vim.Comment("<cm_ConfTabChange>", "配置:制表位")
vim.Comment("<cm_DirTabsConfig>", "配置:文件夹标签")
vim.Comment("<cm_CustomColumnConfig>", "配置:自定义列")
vim.Comment("<cm_CustomColumnDlg>", "更改当前自定义列")
vim.Comment("<cm_ConfigViewModes>", "配置:视图模式")
vim.Comment("<cm_ConfigViewModeSwitch>", "配置:自动切换视图模式")
vim.Comment("<cm_LanguageConfig>", "配置:语言")
vim.Comment("<cm_Config2>", "配置:操作")
vim.Comment("<cm_EditConfig>", "配置:编辑/查看")
vim.Comment("<cm_CopyConfig>", "配置:复制/删除")
vim.Comment("<cm_RefreshConfig>", "配置:刷新")
vim.Comment("<cm_QuickSearchConfig>", "配置:快速搜索")
vim.Comment("<cm_FtpConfig>", "配置:FTP")
vim.Comment("<cm_PluginsConfig>", "配置:插件")
vim.Comment("<cm_ThumbnailsConfig>", "配置:缩略图")
vim.Comment("<cm_LogConfig>", "配置:日志文件")
vim.Comment("<cm_IgnoreConfig>", "配置:隐藏文件列表")
vim.Comment("<cm_PackerConfig>", "配置:压缩程序")
vim.Comment("<cm_ZipPackerConfig>", "配置:ZIP 压缩程序")
vim.Comment("<cm_Confirmation>", "配置:其他")
vim.Comment("<cm_ConfigSavePos>", "配置:保存窗口位置")
vim.Comment("<cm_ButtonConfig>", "配置:工具栏")
vim.Comment("<cm_ButtonConfig2>", "配置:垂直工具栏")
vim.Comment("<cm_ConfigSaveSettings>", "配置:保存设置")
vim.Comment("<cm_ConfigChangeIniFiles>", "配置:直接修改设置文件")
vim.Comment("<cm_ConfigSaveDirHistory>", "配置:保存文件夹历史记录")
vim.Comment("<cm_ChangeStartMenu>", "配置:更改开始菜单")
vim.Comment("<cm_NetConnect>", "映射网络驱动器")
vim.Comment("<cm_NetDisconnect>", "断开网络驱动器")
vim.Comment("<cm_NetShareDir>", "共享文件夹")
vim.Comment("<cm_NetUnshareDir>", "停止共享文件夹")
vim.Comment("<cm_AdministerServer>", "显示系统共享文件夹")
vim.Comment("<cm_ShowFileUser>", "显示本地文件的远程用户")
vim.Comment("<cm_GetFileSpace>", "计算占用空间")
vim.Comment("<cm_VolumeId>", "设置卷标")
vim.Comment("<cm_VersionInfo>", "文件属性")
vim.Comment("<cm_ExecuteDOS>", "打开命令提示符")
vim.Comment("<cm_CompareDirs>", "比较文件夹")
vim.Comment("<cm_CompareDirsWithSubdirs>", "比较文件夹(同时标记不同的子文件夹)")
vim.Comment("<cm_ContextMenu>", "显示上下文菜单")
vim.Comment("<cm_ContextMenuInternal>", "显示上下文菜单(内部关联)")
vim.Comment("<cm_ContextMenuInternalCursor>", "显示上下文菜单(光标处文件的内部关联)")
vim.Comment("<cm_ShowRemoteMenu>", "显示上下文菜单(媒体中心遥控器的播放/暂停键)")
vim.Comment("<cm_SyncChangeDir>", "两侧面板同步更改文件夹")
vim.Comment("<cm_EditComment>", "编辑文件备注")
vim.Comment("<cm_FocusLeft>", "将光标移动到左面板")
vim.Comment("<cm_FocusRight>", "将光标移动到右面板")
vim.Comment("<cm_FocusSrc>", "将光标移动到来源面板")
vim.Comment("<cm_FocusTrg>", "将光标移动到目标面板")
vim.Comment("<cm_FocusCmdLine>", "将光标移动到命令行")
vim.Comment("<cm_FocusButtonBar>", "将光标移动到工具栏")
vim.Comment("<cm_FocusLeftTree>", "将光标移动到左侧文件夹树")
vim.Comment("<cm_FocusRightTree>", "将光标移动到右侧文件夹树")
vim.Comment("<cm_FocusSrcTree>", "将光标移动到来源文件夹树")
vim.Comment("<cm_FocusTrgTree>", "将光标移动到目标文件夹树")
vim.Comment("<cm_CountDirContent>", "计算所有子文件夹占用的空间")
vim.Comment("<cm_UnloadPlugins>", "卸载所有插件")
vim.Comment("<cm_DirMatch>", "标记新文件,隐藏相同者")
vim.Comment("<cm_Exchange>", "交换两侧面板")
vim.Comment("<cm_MatchSrc>", "目标 = 来源")
vim.Comment("<cm_ReloadSelThumbs>", "重新加载选定的缩略图")
vim.Comment("<cm_ReloadBarIcons>", "重新加载工具栏和开始菜单图标")
vim.Comment("<cm_CheckForUpdates>", "检查更新")
vim.Comment("<cm_DirectCableConnect>", "直接电缆连接")
vim.Comment("<cm_NTinstallDriver>", "加载 NT 并行端口驱动程序")
vim.Comment("<cm_NTremoveDriver>", "卸载 NT 并行端口驱动程序")
vim.Comment("<cm_PrintDir>", "打印文件列表(预览)")
vim.Comment("<cm_PrintDirSub>", "打印文件列表(包括子文件夹)")
vim.Comment("<cm_PrintFile>", "打印文件内容")
vim.Comment("<cm_SpreadSelection>", "增加选择")
vim.Comment("<cm_SpreadSelectionCurrentExt>", "增加选择:按光标处文件的扩展名")
vim.Comment("<cm_SelectBoth>", "增加选择:文件和文件夹")
vim.Comment("<cm_SelectFiles>", "增加选择:仅文件")
vim.Comment("<cm_SelectFolders>", "增加选择:仅文件夹")
vim.Comment("<cm_ShrinkSelection>", "减少选择")
vim.Comment("<cm_ShrinkSelectionCurrentExt>", "减少选择:按光标处文件的扩展名")
vim.Comment("<cm_ClearFiles>", "减少选择:仅文件")
vim.Comment("<cm_ClearFolders>", "减少选择:仅文件夹")
vim.Comment("<cm_ClearSelCfg>", "减少选择:仅文件或文件+文件夹(视配置而定)")
vim.Comment("<cm_SelectAll>", "全部选择:仅文件,或文件和文件夹(视配置而定)")
vim.Comment("<cm_SelectAllBoth>", "全部选择:文件和文件夹")
vim.Comment("<cm_SelectAllFiles>", "全部选择:仅文件")
vim.Comment("<cm_SelectAllFolders>", "全部选择:仅文件夹")
vim.Comment("<cm_ClearAll>", "全部取消:文件和文件夹")
vim.Comment("<cm_ClearAllFiles>", "全部取消:仅文件")
vim.Comment("<cm_ClearAllFolders>", "全部取消:仅文件夹")
vim.Comment("<cm_ClearAllCfg>", "全部取消:仅文件或文件+文件夹(视配置而定)")
vim.Comment("<cm_ExchangeSelection>", "反向选择")
vim.Comment("<cm_ExchangeSelBoth>", "反向选择:文件和文件夹")
vim.Comment("<cm_ExchangeSelFiles>", "反向选择:仅文件")
vim.Comment("<cm_ExchangeSelFolders>", "反向选择:仅文件夹")
vim.Comment("<cm_SelectCurrentExtension>", "全部选择:扩展名相同的文件")
vim.Comment("<cm_UnselectCurrentExtension>", "全部取消:扩展名相同的文件")
vim.Comment("<cm_SelectCurrentName>", "全部选择:文件名相同的文件")
vim.Comment("<cm_UnselectCurrentName>", "全部取消:文件名相同的文件")
vim.Comment("<cm_SelectCurrentNameExt>", "全部选择:文件名和扩展名都相同的文件")
vim.Comment("<cm_UnselectCurrentNameExt>", "全部取消:文件名和扩展名都相同的文件")
vim.Comment("<cm_SelectCurrentPath>", "全部选择:路径相同的文件(展开文件夹/搜索文件)")
vim.Comment("<cm_UnselectCurrentPath>", "全部取消:路径相同的文件(展开文件夹/搜索文件)")
vim.Comment("<cm_RestoreSelection>", "恢复选择")
vim.Comment("<cm_SaveSelection>", "保存选择")
vim.Comment("<cm_SaveSelectionToFile>", "导出选择")
vim.Comment("<cm_SaveSelectionToFileA>", "导出选择 (ANSI)")
vim.Comment("<cm_SaveSelectionToFileW>", "导出选择 (Unicode)")
vim.Comment("<cm_SaveDetailsToFile>", "导出详细信息")
vim.Comment("<cm_SaveDetailsToFileA>", "导出详细信息 (ANSI)")
vim.Comment("<cm_SaveDetailsToFileW>", "导出详细信息 (Unicode)")
vim.Comment("<cm_LoadSelectionFromFile>", "导入选择(从文件)")
vim.Comment("<cm_LoadSelectionFromClip>", "导入选择(从剪贴板)")
vim.Comment("<cm_Select>", "选择项目并下移光标")
vim.Comment("<cm_UnSelect>", "取消选择并下移光标")
vim.Comment("<cm_Reverse>", "反向选择并下移光标")
vim.Comment("<cm_EditPermissionInfo>", "设置权限 (NTFS)")
vim.Comment("<cm_EditPersmissionInfo>", "设置权限 (NTFS)")
vim.Comment("<cm_EditAuditInfo>", "审核文件 (NTFS)")
vim.Comment("<cm_EditOwnerInfo>", "取得所有权 (NTFS)")
vim.Comment("<cm_CutToClipboard>", "将所选文件剪切到剪贴板")
vim.Comment("<cm_CopyToClipboard>", "将所选文件复制到剪贴板")
vim.Comment("<cm_PasteFromClipboard>", "从剪贴板粘贴到当前文件夹")
vim.Comment("<cm_CopyNamesToClip>", "复制文件名")
vim.Comment("<cm_CopyFullNamesToClip>", "复制文件名和完整路径")
vim.Comment("<cm_CopyNetNamesToClip>", "复制文件名和网络路径")
vim.Comment("<cm_CopySrcPathToClip>", "复制来源面板路径")
vim.Comment("<cm_CopyTrgPathToClip>", "复制目标面板路径")
vim.Comment("<cm_CopyFileDetailsToClip>", "复制详细信息")
vim.Comment("<cm_CopyFpFileDetailsToClip>", "复制详细信息和完整路径")
vim.Comment("<cm_CopyNetFileDetailsToClip>", "复制详细信息和网络路径")
vim.Comment("<cm_FtpConnect>", "连接到 FTP")
vim.Comment("<cm_FtpNew>", "新建 FTP 连接")
vim.Comment("<cm_FtpDisconnect>", "断开 FTP 连接")
vim.Comment("<cm_FtpHiddenFiles>", "显示 FTP 中隐藏的文件")
vim.Comment("<cm_FtpAbort>", "中止当前的 FTP 命令")
vim.Comment("<cm_FtpResumeDownload>", "恢复下载")
vim.Comment("<cm_FtpSelectTransferMode>", "选择传输模式")
vim.Comment("<cm_FtpAddToList>", "将所选文件添加到下载列表")
vim.Comment("<cm_FtpDownloadList>", "下载位于下载列表中的文件")
vim.Comment("<cm_GotoPreviousDir>", "后退")
vim.Comment("<cm_GotoNextDir>", "前进")
vim.Comment("<cm_DirectoryHistory>", "文件夹历史记录")
vim.Comment("<cm_DirectoryHistoryNoThinning>", "文件夹历史记录(未筛选)")
vim.Comment("<cm_GotoPreviousLocalDir>", "后退(本地文件夹)")
vim.Comment("<cm_GotoNextLocalDir>", "前进(本地文件夹)")
vim.Comment("<cm_DirectoryHotlist>", "常用文件夹")
vim.Comment("<cm_GoToRoot>", "转到根文件夹")
vim.Comment("<cm_GoToParent>", "转到上级文件夹")
vim.Comment("<cm_GoToDir>", "打开光标处的文件夹或压缩文件")
vim.Comment("<cm_OpenDesktop>", "桌面文件夹")
vim.Comment("<cm_OpenDrives>", "此电脑")
vim.Comment("<cm_OpenControls>", "控制面板")
vim.Comment("<cm_OpenFonts>", "字体文件夹")
vim.Comment("<cm_OpenNetwork>", "网络")
vim.Comment("<cm_OpenPrinters>", "打印机文件夹")
vim.Comment("<cm_OpenRecycled>", "回收站")
vim.Comment("<cm_CDtree>", "更改文件夹")
vim.Comment("<cm_TransferLeft>", "打开光标处的文件夹(在左面板)")
vim.Comment("<cm_TransferRight>", "打开光标处的文件夹(在右面板)")
vim.Comment("<cm_EditPath>", "编辑来源面板路径")
vim.Comment("<cm_GoToFirstEntry>", "将光标移动到列表中第一个文件或文件夹")
vim.Comment("<cm_GoToFirstFile>", "将光标移动到列表中的第一个文件")
vim.Comment("<cm_GotoNextDrive>", "切换到下一个驱动器")
vim.Comment("<cm_GotoPreviousDrive>", "切换到上一个驱动器")
vim.Comment("<cm_GotoNextSelected>", "转到下一个选定的文件")
vim.Comment("<cm_GotoPrevSelected>", "转到上一个选定的文件")
vim.Comment("<cm_GotoNext>", "转到下一个文件")
vim.Comment("<cm_GotoPrev>", "转到上一个文件")
vim.Comment("<cm_GoToLast>", "转到最后一个文件")
vim.Comment("<cm_GotoDriveA>", "切换到驱动器 A")
vim.Comment("<cm_GotoDriveC>", "切换到驱动器 C")
vim.Comment("<cm_GotoDriveD>", "切换到驱动器 D")
vim.Comment("<cm_GotoDriveE>", "切换到驱动器 E")
vim.Comment("<cm_GotoDriveF>", "等等")
vim.Comment("<cm_GotoDriveZ>", "(直到驱动器 Z,命令代码:2086)")
vim.Comment("<cm_HelpIndex>", "帮助索引")
vim.Comment("<cm_Keyboard>", "快捷键列表")
vim.Comment("<cm_Register>", "注册信息")
vim.Comment("<cm_VisitHomepage>", "访问主页")
vim.Comment("<cm_About>", "关于 Total Commander")
vim.Comment("<cm_Exit>", "退出 Total Commander")
vim.Comment("<cm_Minimize>", "最小化 Total Commander")
vim.Comment("<cm_Maximize>", "最大化 Total Commander")
vim.Comment("<cm_Restore>", "恢复正常大小")
vim.Comment("<cm_ClearCmdLine>", "清除命令行")
vim.Comment("<cm_NextCommand>", "下一个命令")
vim.Comment("<cm_PrevCommand>", "上一个命令")
vim.Comment("<cm_AddPathToCmdline>", "将路径复制到命令行")
vim.Comment("<cm_MultiRenameFiles>", "批量重命名")
vim.Comment("<cm_SysInfo>", "系统信息")
vim.Comment("<cm_OpenTransferManager>", "后台传输管理器")
vim.Comment("<cm_SearchFor>", "搜索文件")
vim.Comment("<cm_SearchForInCurdir>", "搜索文件(在光标处的文件夹中)")
vim.Comment("<cm_SearchStandalone>", "搜索文件(单独进程)")
vim.Comment("<cm_FileSync>", "同步文件夹")
vim.Comment("<cm_Associate>", "文件关联")
vim.Comment("<cm_InternalAssociate>", "定义内部关联")
vim.Comment("<cm_CompareFilesByContent>", "比较文件内容")
vim.Comment("<cm_IntCompareFilesByContent>", "使用内部比较程序")
vim.Comment("<cm_CommandBrowser>", "浏览内部命令")
vim.Comment("<cm_SeparateQuickView>", "单独快速查看窗口")
vim.Comment("<cm_SeparateQuickInternalOnly>", "单独快速查看窗口(不使用插件)")
vim.Comment("<cm_UpdateQuickView>", "刷新快速查看窗口")
vim.Comment("<cm_VisButtonbar>", "显示/隐藏:工具栏")
vim.Comment("<cm_VisButtonbar2>", "显示/隐藏:垂直工具栏")
vim.Comment("<cm_VisDriveButtons>", "显示/隐藏:驱动器按钮栏")
vim.Comment("<cm_VisTwoDriveButtons>", "显示/隐藏:两个驱动器按钮栏")
vim.Comment("<cm_VisFlatDriveButtons>", "平坦/常规:驱动器按钮")
vim.Comment("<cm_VisFlatInterface>", "平坦/常规:用户界面")
vim.Comment("<cm_VisDriveCombo>", "显示/隐藏:驱动器列表栏")
vim.Comment("<cm_VisCurDir>", "显示/隐藏:路径栏")
vim.Comment("<cm_VisBreadCrumbs>", "显示/隐藏:痕迹导航栏")
vim.Comment("<cm_VisTabHeader>", "显示/隐藏:列标题栏")
vim.Comment("<cm_VisStatusbar>", "显示/隐藏:状态栏")
vim.Comment("<cm_VisCmdLine>", "显示/隐藏:命令行")
vim.Comment("<cm_VisKeyButtons>", "显示/隐藏:功能键按钮")
vim.Comment("<cm_ShowHint>", "显示文件提示信息")
vim.Comment("<cm_ShowQuickSearch>", "显示快速搜索对话框")
vim.Comment("<cm_SwitchLongNames>", "开启/关闭:显示长文件名")
vim.Comment("<cm_RereadSource>", "刷新来源面板")
vim.Comment("<cm_ShowOnlySelected>", "仅显示选定的文件")
vim.Comment("<cm_SwitchHidSys>", "开启/关闭:显示隐藏或系统文件")
vim.Comment("<cm_SwitchHid>", "开启/关闭:显示隐藏文件")
vim.Comment("<cm_SwitchSys>", "开启/关闭:显示系统文件")
vim.Comment("<cm_Switch83Names>", "开启/关闭:以小写显示 8.3 格式文件名")
vim.Comment("<cm_SwitchDirSort>", "开启/关闭:文件夹按名称排序")
vim.Comment("<cm_DirBranch>", "展开所有文件夹")
vim.Comment("<cm_DirBranchSel>", "仅展开选定的文件夹")
vim.Comment("<cm_50Percent>", "将面板设为相同大小")
vim.Comment("<cm_100Percent>", "隐藏不活动的面板")
vim.Comment("<cm_VisDirTabs>", "显示/隐藏:文件夹标签")
vim.Comment("<cm_VisXPThemeBackground>", "显示/隐藏:XP 主题背景")
vim.Comment("<cm_SwitchOverlayIcons>", "开启/关闭:显示叠加图标")
vim.Comment("<cm_VisHistHotButtons>", "显示/隐藏:文件夹历史记录和常用文件夹按钮")
vim.Comment("<cm_SwitchWatchDirs>", "开启/关闭:文件夹自动刷新")
vim.Comment("<cm_SwitchIgnoreList>", "开启/关闭:隐藏文件功能")
vim.Comment("<cm_SwitchX64Redirection>", "开启/关闭:System32 重定向到 SysWOW64(64 位 Windows)")
vim.Comment("<cm_SeparateTreeOff>", "关闭文件夹树面板")
vim.Comment("<cm_SeparateTree1>", "一个文件夹树面板")
vim.Comment("<cm_SeparateTree2>", "两个文件夹树面板")
vim.Comment("<cm_SwitchSeparateTree>", "切换文件夹树面板状态")
vim.Comment("<cm_ToggleSeparateTree1>", "开启/关闭:一个文件夹树面板")
vim.Comment("<cm_ToggleSeparateTree2>", "开启/关闭:两个文件夹树面板")
vim.Comment("<cm_ChangeArchiveEncoding>", "显示弹出菜单以更改压缩文件名编码")
vim.Comment("<cm_SwitchDarkmode>", "开启/关闭:深色模式")
vim.Comment("<cm_EnableDarkmode>", "开启深色模式")
vim.Comment("<cm_DisableDarkmode>", "关闭深色模式")
vim.Comment("<cm_UserMenu1>", "启动开始菜单中的第一个菜单项")
vim.Comment("<cm_UserMenu2>", "启动开始菜单中的第二个菜单项")
vim.Comment("<cm_UserMenu3>", "等等")
vim.Comment("<cm_UserMenu10>", "(直到第 199 项,命令代码:899)")
vim.Comment("<cm_OpenNewTab>", "新建标签")
vim.Comment("<cm_OpenNewTabBg>", "新建标签(在后台)")
vim.Comment("<cm_OpenDirInNewTab>", "新建标签并打开光标处的文件夹(在当前面板)")
vim.Comment("<cm_OpenDirInNewTabOther>", "新建标签并打开光标处的文件夹(在另一面板)")
vim.Comment("<cm_SwitchToNextTab>", "切换到下一个标签 (Ctrl+Tab)")
vim.Comment("<cm_SwitchToPreviousTab>", "切换到上一个标签 (Ctrl+Shift+Tab)")
vim.Comment("<cm_MoveTabLeft>", "向左移动当前标签")
vim.Comment("<cm_MoveTabRight>", "向右移动当前标签")
vim.Comment("<cm_CloseCurrentTab>", "关闭当前标签")
vim.Comment("<cm_CloseAllTabs>", "关闭所有标签")
vim.Comment("<cm_DirTabsShowMenu>", "显示标签菜单")
vim.Comment("<cm_ToggleLockCurrentTab>", "锁定/解锁:当前标签")
vim.Comment("<cm_ToggleLockDcaCurrentTab>", "锁定/解锁:当前标签(可更改文件夹)")
vim.Comment("<cm_ExchangeWithTabs>", "交换两侧面板所有标签")
vim.Comment("<cm_GoToLockedDir>", "转到锁定标签的原始文件夹")
vim.Comment("<cm_SrcActivateTab1>", "来源面板:切换到第一个标签")
vim.Comment("<cm_SrcActivateTab2>", "来源面板:切换到第二个标签")
vim.Comment("<cm_SrcActivateTab3>", "等等")
vim.Comment("<cm_SrcActivateTab10>", "(直到第 99 个标签,命令代码:5099)")
vim.Comment("<cm_TrgActivateTab1>", "目标面板:切换到第一个标签")
vim.Comment("<cm_TrgActivateTab2>", "目标面板:切换到第二个标签")
vim.Comment("<cm_TrgActivateTab3>", "等等")
vim.Comment("<cm_TrgActivateTab10>", "(直到第 99 个标签,命令代码:5199)")
vim.Comment("<cm_LeftActivateTab1>", "左面板:切换到第一个标签")
vim.Comment("<cm_LeftActivateTab2>", "左面板:切换到第二个标签")
vim.Comment("<cm_LeftActivateTab10>", "(直到第 99 个标签,命令代码:5299)")
vim.Comment("<cm_RightActivateTab1>", "右面板:切换到第一个标签")
vim.Comment("<cm_RightActivateTab2>", "右面板:切换到第二个标签")
vim.Comment("<cm_RightActivateTab3>", "等等")
vim.Comment("<cm_RightActivateTab10>", "(直到第 99 个标签,命令代码:5399)")
vim.Comment("<cm_SrcSortByCol1>", "来源面板:按第一列排序")
vim.Comment("<cm_SrcSortByCol2>", "来源面板:按第二列排序")
vim.Comment("<cm_SrcSortByCol3>", "等等")
vim.Comment("<cm_SrcSortByCol10>", "(直到第 99 列,命令代码:6099)")
vim.Comment("<cm_TrgSortByCol1>", "目标面板:按第一列排序")
vim.Comment("<cm_TrgSortByCol2>", "目标面板:按第二列排序")
vim.Comment("<cm_TrgSortByCol3>", "等等")
vim.Comment("<cm_TrgSortByCol10>", "(直到第 99 列,命令代码:6199)")
vim.Comment("<cm_LeftSortByCol1>", "左面板:按第一列排序")
vim.Comment("<cm_LeftSortByCol2>", "左面板:按第二列排序")
vim.Comment("<cm_LeftSortByCol3>", "等等")
vim.Comment("<cm_LeftSortByCol10>", "(直到第 99 列,命令代码:6299)")
vim.Comment("<cm_RightSortByCol1>", "右面板:按第一列排序")
vim.Comment("<cm_RightSortByCol2>", "右面板:按第二列排序")
vim.Comment("<cm_RightSortByCol3>", "等等")
vim.Comment("<cm_RightSortByCol10>", "(直到第 99 列,命令代码:6399)")
vim.Comment("<cm_SrcCustomView1>", "来源面板:切换到自定义列视图 1")
vim.Comment("<cm_SrcCustomView2>", "来源面板:切换到自定义列视图 2")
vim.Comment("<cm_SrcCustomView3>", "等等")
vim.Comment("<cm_SrcCustomView9>", "(直到第 29 个视图,命令代码:299)")
vim.Comment("<cm_TrgCustomView1>", "目标面板:切换到自定义列视图 1")
vim.Comment("<cm_TrgCustomView2>", "目标面板:切换到自定义列视图 2")
vim.Comment("<cm_TrgCustomView3>", "等等")
vim.Comment("<cm_TrgCustomView9>", "(直到第 29 个视图,命令代码:449)")
vim.Comment("<cm_LeftCustomView1>", "左面板:切换到自定义列视图 1")
vim.Comment("<cm_LeftCustomView2>", "左面板:切换到自定义列视图 2")
vim.Comment("<cm_LeftCustomView3>", "等等")
vim.Comment("<cm_LeftCustomView9>", "(直到第 29 个视图,命令代码:99)")
vim.Comment("<cm_RightCustomView1>", "右面板:切换到自定义列视图 1")
vim.Comment("<cm_RightCustomView2>", "右面板:切换到自定义列视图 2")
vim.Comment("<cm_RightCustomView3>", "等等")
vim.Comment("<cm_RightCustomView9>", "(直到第 29 个视图,命令代码:199)")
vim.Comment("<cm_SrcNextCustomView>", "来源面板:切换到下一个自定义列视图")
vim.Comment("<cm_SrcPrevCustomView>", "来源面板:切换到上一个自定义列视图")
vim.Comment("<cm_TrgNextCustomView>", "目标面板:切换到下一个自定义列视图")
vim.Comment("<cm_TrgPrevCustomView>", "目标面板:切换到上一个自定义列视图")
vim.Comment("<cm_LeftNextCustomView>", "左面板:切换到下一个自定义列视图")
vim.Comment("<cm_LeftPrevCustomView>", "左面板:切换到上一个自定义列视图")
vim.Comment("<cm_RightNextCustomView>", "右面板:切换到下一个自定义列视图")
vim.Comment("<cm_RightPrevCustomView>", "右面板:切换到上一个自定义列视图")
vim.Comment("<cm_LoadAllOnDemandFields>", "所有文件都加载自定义字段")
vim.Comment("<cm_LoadSelOnDemandFields>", "仅所选文件加载自定义字段")
vim.Comment("<cm_ContentStopLoadFields>", "停止后台加载自定义字段")
vim.Comment("<cm_LeftSwitchToThisCustomView>", "左面板:切换到自定义列视图(用于脚本,lparam=视图号)")
vim.Comment("<cm_RightSwitchToThisCustomView>", "右面板:切换到自定义列视图(用于脚本,lparam=视图号)")
vim.Comment("<cm_ToggleAutoViewModeSwitch>", "开启/关闭:自动切换视图模式")
vim.Comment("<cm_SrcViewMode0>", "来源面板:切换到默认视图模式(无颜色和图标)")
vim.Comment("<cm_SrcViewMode1>", "来源面板:切换到视图模式 1")
vim.Comment("<cm_SrcViewMode2>", "来源面板:切换到视图模式 2")
vim.Comment("<cm_SrcViewMode3>", "等等")
vim.Comment("<cm_SrcViewMode9>", "(直到第 249 个模式,命令代码: 8749)")
vim.Comment("<cm_TrgViewMode0>", "目标面板:切换到默认视图模式(无颜色和图标)")
vim.Comment("<cm_TrgViewMode1>", "目标面板:切换到视图模式 1")
vim.Comment("<cm_TrgViewMode2>", "目标面板:切换到视图模式 2")
vim.Comment("<cm_TrgViewMode3>", "等等")
vim.Comment("<cm_TrgViewMode9>", "(直到第 249 个模式,命令代码: 8999)")
vim.Comment("<cm_LeftViewMode0>", "左面板:切换到默认视图模式(无颜色和图标)")
vim.Comment("<cm_LeftViewMode1>", "左面板:切换到视图模式 1")
vim.Comment("<cm_LeftViewMode2>", "左面板:切换到视图模式 2")
vim.Comment("<cm_LeftViewMode3>", "等等")
vim.Comment("<cm_LeftViewMode9>", "(直到第 249 个模式,命令代码: 8249)")
vim.Comment("<cm_RightViewMode0>", "右面板:切换到默认视图模式(无颜色和图标)")
vim.Comment("<cm_RightViewMode1>", "右面板:切换到视图模式 1")
vim.Comment("<cm_RightViewMode2>", "右面板:切换到视图模式 2")
vim.Comment("<cm_RightViewMode3>", "等等")
vim.Comment("<cm_RightViewMode9>", "(直到第 249 个模式,命令代码: 8499)")
return
SendPos(pos) {
PostMessage, 1075, %pos%, 0, , ahk_class TTOTAL_CMD
}
<cm_SrcComments>:
SendPos(300)
return
<cm_SrcShort>:
SendPos(301)
return
<cm_SrcLong>:
SendPos(302)
return
<cm_SrcTree>:
SendPos(303)
return
<cm_SrcQuickview>:
SendPos(304)
return
<cm_VerticalPanels>:
SendPos(305)
return
<cm_SrcQuickInternalOnly>:
SendPos(306)
return
<cm_SrcHideQuickview>:
SendPos(307)
return
<cm_SrcExecs>:
SendPos(311)
return
<cm_SrcAllFiles>:
SendPos(312)
return
<cm_SrcUserSpec>:
SendPos(313)
return
<cm_SrcUserDef>:
SendPos(314)
return
<cm_SrcByName>:
SendPos(321)
return
<cm_SrcByExt>:
SendPos(322)
return
<cm_SrcBySize>:
SendPos(323)
return
<cm_SrcByDateTime>:
SendPos(324)
return
<cm_SrcUnsorted>:
SendPos(325)
return
<cm_SrcNegOrder>:
SendPos(330)
return
<cm_SrcOpenDrives>:
SendPos(331)
return
<cm_SrcThumbs>:
SendPos(269)
return
<cm_SrcCustomViewMenu>:
SendPos(270)
return
<cm_SrcPathFocus>:
SendPos(332)
return
<cm_SrcViewModeList>:
SendPos(333)
return
<cm_LeftComments>:
SendPos(100)
return
<cm_LeftShort>:
SendPos(101)
return
<cm_LeftLong>:
SendPos(102)
return
<cm_LeftTree>:
SendPos(103)
return
<cm_LeftQuickview>:
SendPos(104)
return
<cm_LeftQuickInternalOnly>:
SendPos(106)
return
<cm_LeftHideQuickview>:
SendPos(107)
return
<cm_LeftExecs>:
SendPos(111)
return
<cm_LeftAllFiles>:
SendPos(112)
return
<cm_LeftUserSpec>:
SendPos(113)
return
<cm_LeftUserDef>:
SendPos(114)
return
<cm_LeftByName>:
SendPos(121)
return
<cm_LeftByExt>:
SendPos(122)
return
<cm_LeftBySize>:
SendPos(123)
return
<cm_LeftByDateTime>:
SendPos(124)
return
<cm_LeftUnsorted>:
SendPos(125)
return
<cm_LeftNegOrder>:
SendPos(130)
return
<cm_LeftOpenDrives>:
SendPos(131)
return
<cm_LeftPathFocus>:
SendPos(132)
return
<cm_LeftDirBranch>:
SendPos(2034)
return
<cm_LeftDirBranchSel>:
SendPos(2047)
return
<cm_LeftThumbs>:
SendPos(69)
return
<cm_LeftCustomViewMenu>:
SendPos(70)
return
<cm_LeftViewModeList>:
SendPos(133)
return
<cm_RightComments>:
SendPos(200)
return
<cm_RightShort>:
SendPos(201)
return
<cm_RightLong>:
SendPos(202)
return
<cm_RightTree>:
SendPos(203)
return
<cm_RightQuickview>:
SendPos(204)
return
<cm_RightQuickInternalOnly>:
SendPos(206)
return
<cm_RightHideQuickview>:
SendPos(207)
return
<cm_RightExecs>:
SendPos(211)
return
<cm_RightAllFiles>:
SendPos(212)
return
<cm_RightUserSpec>:
SendPos(213)
return
<cm_RightUserDef>:
SendPos(214)
return
<cm_RightByName>:
SendPos(221)
return
<cm_RightByExt>:
SendPos(222)
return
<cm_RightBySize>:
SendPos(223)
return
<cm_RightByDateTime>:
SendPos(224)
return
<cm_RightUnsorted>:
SendPos(225)
return
<cm_RightNegOrder>:
SendPos(230)
return
<cm_RightOpenDrives>:
SendPos(231)
return
<cm_RightPathFocus>:
SendPos(232)
return
<cm_RightDirBranch>:
SendPos(2035)
return
<cm_RightDirBranchSel>:
SendPos(2048)
return
<cm_RightThumbs>:
SendPos(169)
return
<cm_RightCustomViewMenu>:
SendPos(170)
return
<cm_RightViewModeList>:
SendPos(233)
return
<cm_List>:
SendPos(903)
return
<cm_ListInternalOnly>:
SendPos(1006)
return
<cm_ListInternalMulti>:
SendPos(2933)
return
<cm_ListOnly>:
SendPos(2934)
return
<cm_ListMulti>:
SendPos(2935)
return
<cm_Edit>:
SendPos(904)
return
<cm_EditNewFile>:
SendPos(2931)
return
<cm_EditFileMenu>:
SendPos(2943)
return
<cm_EditExistingFile>:
SendPos(2932)
return
<cm_Copy>:
SendPos(905)
return
<cm_CopySamepanel>:
SendPos(3100)
return
<cm_CopyOtherpanel>:
SendPos(3101)
return
<cm_RenMov>:
SendPos(906)
return
<cm_MkDir>:
SendPos(907)
return
<cm_MkDirOther>:
SendPos(911)
return
<cm_Delete>:
SendPos(908)
return
<cm_TestArchive>:
SendPos(518)
return
<cm_PackFiles>:
SendPos(508)
return
<cm_UnpackFiles>:
SendPos(509)
return
<cm_RenameOnly>:
SendPos(1002)
return
<cm_RenameSingleFile>:
SendPos(1007)
return
<cm_MoveOnly>:
SendPos(1005)
return
<cm_Properties>:
SendPos(1003)
return
<cm_ModernShare>:
SendPos(1008)
return
<cm_CreateShortcut>:
SendPos(1004)
return
<cm_Return>:
SendPos(1001)
return
<cm_OpenAsUser>:
SendPos(2800)
return
<cm_Split>:
SendPos(560)
return
<cm_Combine>:
SendPos(561)
return
<cm_Encode>:
SendPos(562)
return
<cm_Decode>:
SendPos(563)
return
<cm_CRCcreate>:
SendPos(564)
return
<cm_CRCcheck>:
SendPos(565)
return
<cm_SetAttrib>:
SendPos(502)
return
<cm_Config>:
SendPos(490)
return
<cm_LayoutConfig>:
SendPos(476)
return
<cm_DisplayConfig>:
SendPos(486)
return
<cm_IconConfig>:
SendPos(477)
return
<cm_FontConfig>:
SendPos(492)
return
<cm_ColorConfig>:
SendPos(494)
return
<cm_ConfTabChange>:
SendPos(497)
return
<cm_DirTabsConfig>:
SendPos(488)
return
<cm_CustomColumnConfig>:
SendPos(483)
return
<cm_CustomColumnDlg>:
SendPos(2920)
return
<cm_ConfigViewModes>:
SendPos(2939)
return
<cm_ConfigViewModeSwitch>:
SendPos(2940)
return
<cm_LanguageConfig>:
SendPos(499)
return
<cm_Config2>:
SendPos(516)
return
<cm_EditConfig>:
SendPos(496)
return
<cm_CopyConfig>:
SendPos(487)
return
<cm_RefreshConfig>:
SendPos(478)
return
<cm_QuickSearchConfig>:
SendPos(479)
return
<cm_FtpConfig>:
SendPos(489)
return
<cm_PluginsConfig>:
SendPos(484)
return
<cm_ThumbnailsConfig>:
SendPos(482)
return
<cm_LogConfig>:
SendPos(481)
return
<cm_IgnoreConfig>:
SendPos(480)
return
<cm_PackerConfig>:
SendPos(491)
return
<cm_ZipPackerConfig>:
SendPos(485)
return
<cm_Confirmation>:
SendPos(495)
return
<cm_ConfigSavePos>:
SendPos(493)
return
<cm_ButtonConfig>:
SendPos(498)
return
<cm_ButtonConfig2>:
SendPos(583)
return
<cm_ConfigSaveSettings>:
SendPos(580)
return
<cm_ConfigChangeIniFiles>:
SendPos(581)
return
<cm_ConfigSaveDirHistory>:
SendPos(582)
return
<cm_ChangeStartMenu>:
SendPos(700)
return
<cm_NetConnect>:
SendPos(512)
return
<cm_NetDisconnect>:
SendPos(513)
return
<cm_NetShareDir>:
SendPos(514)
return
<cm_NetUnshareDir>:
SendPos(515)
return
<cm_AdministerServer>:
SendPos(2204)
return
<cm_ShowFileUser>:
SendPos(2203)
return
<cm_GetFileSpace>:
SendPos(503)
return
<cm_VolumeId>:
SendPos(505)
return
<cm_VersionInfo>:
SendPos(510)
return
<cm_ExecuteDOS>:
SendPos(511)
return
<cm_CompareDirs>:
SendPos(533)
return
<cm_CompareDirsWithSubdirs>:
SendPos(536)
return
<cm_ContextMenu>:
SendPos(2500)
return
<cm_ContextMenuInternal>:
SendPos(2927)
return
<cm_ContextMenuInternalCursor>:
SendPos(2928)
return
<cm_ShowRemoteMenu>:
SendPos(2930)
return
<cm_SyncChangeDir>:
SendPos(2600)
return
<cm_EditComment>:
SendPos(2700)
return
<cm_FocusLeft>:
SendPos(4001)
return
<cm_FocusRight>:
SendPos(4002)
return
<cm_FocusSrc>:
SendPos(4005)
return
<cm_FocusTrg>:
SendPos(4006)
return
<cm_FocusCmdLine>:
SendPos(4003)
return
<cm_FocusButtonBar>:
SendPos(4004)
return
<cm_FocusLeftTree>:
SendPos(4007)
return
<cm_FocusRightTree>:
SendPos(4008)
return
<cm_FocusSrcTree>:
SendPos(4009)
return
<cm_FocusTrgTree>:
SendPos(4010)
return
<cm_CountDirContent>:
SendPos(2014)
return
<cm_UnloadPlugins>:
SendPos(2913)
return
<cm_DirMatch>:
SendPos(534)
return
<cm_Exchange>:
SendPos(531)
return
<cm_MatchSrc>:
SendPos(532)
return
<cm_ReloadSelThumbs>:
SendPos(2918)
return
<cm_ReloadBarIcons>:
SendPos(2945)
return
<cm_CheckForUpdates>:
SendPos(650)
return
<cm_DirectCableConnect>:
SendPos(2300)
return
<cm_NTinstallDriver>:
SendPos(2301)
return
<cm_NTremoveDriver>:
SendPos(2302)
return
<cm_PrintDir>:
SendPos(2027)
return
<cm_PrintDirSub>:
SendPos(2028)
return
<cm_PrintFile>:
SendPos(504)
return
<cm_SpreadSelection>:
SendPos(521)
return
<cm_SpreadSelectionCurrentExt>:
SendPos(546)
return
<cm_SelectBoth>:
SendPos(3311)
return
<cm_SelectFiles>:
SendPos(3312)
return
<cm_SelectFolders>:
SendPos(3313)
return
<cm_ShrinkSelection>:
SendPos(522)
return
<cm_ShrinkSelectionCurrentExt>:
SendPos(547)
return
<cm_ClearFiles>:
SendPos(3314)
return
<cm_ClearFolders>:
SendPos(3315)
return
<cm_ClearSelCfg>:
SendPos(3316)
return
<cm_SelectAll>:
SendPos(523)
return
<cm_SelectAllBoth>:
SendPos(3301)
return
<cm_SelectAllFiles>:
SendPos(3302)
return
<cm_SelectAllFolders>:
SendPos(3303)
return
<cm_ClearAll>:
SendPos(524)
return
<cm_ClearAllFiles>:
SendPos(3304)
return
<cm_ClearAllFolders>:
SendPos(3305)
return
<cm_ClearAllCfg>:
SendPos(3306)
return
<cm_ExchangeSelection>:
SendPos(525)
return
<cm_ExchangeSelBoth>:
SendPos(3321)
return
<cm_ExchangeSelFiles>:
SendPos(3322)
return
<cm_ExchangeSelFolders>:
SendPos(3323)
return
<cm_SelectCurrentExtension>:
SendPos(527)
return
<cm_UnselectCurrentExtension>:
SendPos(528)
return
<cm_SelectCurrentName>:
SendPos(541)
return
<cm_UnselectCurrentName>:
SendPos(542)
return
<cm_SelectCurrentNameExt>:
SendPos(543)
return
<cm_UnselectCurrentNameExt>:
SendPos(544)
return
<cm_SelectCurrentPath>:
SendPos(537)
return
<cm_UnselectCurrentPath>:
SendPos(538)
return
<cm_RestoreSelection>:
SendPos(529)
return
<cm_SaveSelection>:
SendPos(530)
return
<cm_SaveSelectionToFile>:
SendPos(2031)
return
<cm_SaveSelectionToFileA>:
SendPos(2041)
return
<cm_SaveSelectionToFileW>:
SendPos(2042)
return
<cm_SaveDetailsToFile>:
SendPos(2039)
return
<cm_SaveDetailsToFileA>:
SendPos(2043)
return
<cm_SaveDetailsToFileW>:
SendPos(2044)
return
<cm_LoadSelectionFromFile>:
SendPos(2032)
return
<cm_LoadSelectionFromClip>:
SendPos(2033)
return
<cm_Select>:
SendPos(2936)
return
<cm_UnSelect>:
SendPos(2937)
return
<cm_Reverse>:
SendPos(2938)
return
<cm_EditPermissionInfo>:
SendPos(2200)
return
<cm_EditPersmissionInfo>:
SendPos(2200)
return
<cm_EditAuditInfo>:
SendPos(2201)
return
<cm_EditOwnerInfo>:
SendPos(2202)
return
<cm_CutToClipboard>:
SendPos(2007)
return
<cm_CopyToClipboard>:
SendPos(2008)
return
<cm_PasteFromClipboard>:
SendPos(2009)
return
<cm_CopyNamesToClip>:
SendPos(2017)
return
<cm_CopyFullNamesToClip>:
SendPos(2018)
return
<cm_CopyNetNamesToClip>:
SendPos(2021)
return
<cm_CopySrcPathToClip>:
SendPos(2029)
return
<cm_CopyTrgPathToClip>:
SendPos(2030)
return
<cm_CopyFileDetailsToClip>:
SendPos(2036)
return
<cm_CopyFpFileDetailsToClip>:
SendPos(2037)
return
<cm_CopyNetFileDetailsToClip>:
SendPos(2038)
return
<cm_FtpConnect>:
SendPos(550)
return
<cm_FtpNew>:
SendPos(551)
return
<cm_FtpDisconnect>:
SendPos(552)
return
<cm_FtpHiddenFiles>:
SendPos(553)
return
<cm_FtpAbort>:
SendPos(554)
return
<cm_FtpResumeDownload>:
SendPos(555)
return
<cm_FtpSelectTransferMode>:
SendPos(556)
return
<cm_FtpAddToList>:
SendPos(557)
return
<cm_FtpDownloadList>:
SendPos(558)
return
<cm_GotoPreviousDir>:
SendPos(570)
return
<cm_GotoNextDir>:
SendPos(571)
return
<cm_DirectoryHistory>:
SendPos(572)
return
<cm_DirectoryHistoryNoThinning>:
SendPos(575)
return
<cm_GotoPreviousLocalDir>:
SendPos(573)
return
<cm_GotoNextLocalDir>:
SendPos(574)
return
<cm_DirectoryHotlist>:
SendPos(526)
return
<cm_GoToRoot>:
SendPos(2001)
return
<cm_GoToParent>:
SendPos(2002)
return
<cm_GoToDir>:
SendPos(2003)
return
<cm_OpenDesktop>:
SendPos(2121)
return
<cm_OpenDrives>:
SendPos(2122)
return
<cm_OpenControls>:
SendPos(2123)
return
<cm_OpenFonts>:
SendPos(2124)
return
<cm_OpenNetwork>:
SendPos(2125)
return
<cm_OpenPrinters>:
SendPos(2126)
return
<cm_OpenRecycled>:
SendPos(2127)
return
<cm_CDtree>:
SendPos(500)
return
<cm_TransferLeft>:
SendPos(2024)
return
<cm_TransferRight>:
SendPos(2025)
return
<cm_EditPath>:
SendPos(2912)
return
<cm_GoToFirstEntry>:
SendPos(2049)
return
<cm_GoToFirstFile>:
SendPos(2050)
return
<cm_GotoNextDrive>:
SendPos(2051)
return
<cm_GotoPreviousDrive>:
SendPos(2052)
return
<cm_GotoNextSelected>:
SendPos(2053)
return
<cm_GotoPrevSelected>:
SendPos(2054)
return
<cm_GotoNext>:
SendPos(2055)
return
<cm_GotoPrev>:
SendPos(2056)
return
<cm_GoToLast>:
SendPos(2057)
return
<cm_GotoDriveA>:
SendPos(2061)
return
<cm_GotoDriveC>:
SendPos(2063)
return
<cm_GotoDriveD>:
SendPos(2064)
return
<cm_GotoDriveE>:
SendPos(2065)
return
<cm_GotoDriveF>:
SendPos(2066)
return
<cm_GotoDriveZ>:
SendPos(2086)
return
<cm_HelpIndex>:
SendPos(610)
return
<cm_Keyboard>:
SendPos(620)
return
<cm_Register>:
SendPos(630)
return
<cm_VisitHomepage>:
SendPos(640)
return
<cm_About>:
SendPos(690)
return
<cm_Exit>:
SendPos(24340)
return
<cm_Minimize>:
SendPos(2000)
return
<cm_Maximize>:
SendPos(2015)
return
<cm_Restore>:
SendPos(2016)
return
<cm_ClearCmdLine>:
SendPos(2004)
return
<cm_NextCommand>:
SendPos(2005)
return
<cm_PrevCommand>:
SendPos(2006)
return
<cm_AddPathToCmdline>:
SendPos(2019)
return
<cm_MultiRenameFiles>:
SendPos(2400)
return
<cm_SysInfo>:
SendPos(506)
return
<cm_OpenTransferManager>:
SendPos(559)
return
<cm_SearchFor>:
SendPos(501)
return
<cm_SearchForInCurdir>:
SendPos(517)
return
<cm_SearchStandalone>:
SendPos(545)
return
<cm_FileSync>:
SendPos(2020)
return
<cm_Associate>:
SendPos(507)
return
<cm_InternalAssociate>:
SendPos(519)
return
<cm_CompareFilesByContent>:
SendPos(2022)
return
<cm_IntCompareFilesByContent>:
SendPos(2040)
return
<cm_CommandBrowser>:
SendPos(2924)
return
<cm_SeparateQuickView>:
SendPos(2941)
return
<cm_SeparateQuickInternalOnly>:
SendPos(2942)
return
<cm_UpdateQuickView>:
SendPos(2946)
return
<cm_VisButtonbar>:
SendPos(2901)
return
<cm_VisButtonbar2>:
SendPos(2944)
return
<cm_VisDriveButtons>:
SendPos(2902)
return
<cm_VisTwoDriveButtons>:
SendPos(2903)
return
<cm_VisFlatDriveButtons>:
SendPos(2904)
return
<cm_VisFlatInterface>:
SendPos(2905)
return
<cm_VisDriveCombo>:
SendPos(2906)
return
<cm_VisCurDir>:
SendPos(2907)
return
<cm_VisBreadCrumbs>:
SendPos(2926)
return
<cm_VisTabHeader>:
SendPos(2908)
return
<cm_VisStatusbar>:
SendPos(2909)
return
<cm_VisCmdLine>:
SendPos(2910)
return
<cm_VisKeyButtons>:
SendPos(2911)
return
<cm_ShowHint>:
SendPos(2914)
return
<cm_ShowQuickSearch>:
SendPos(2915)
return
<cm_SwitchLongNames>:
SendPos(2010)
return
<cm_RereadSource>:
SendPos(540)
return
<cm_ShowOnlySelected>:
SendPos(2023)
return
<cm_SwitchHidSys>:
SendPos(2011)
return
<cm_SwitchHid>:
SendPos(3013)
return
<cm_SwitchSys>:
SendPos(3014)
return
<cm_Switch83Names>:
SendPos(2013)
return
<cm_SwitchDirSort>:
SendPos(2012)
return
<cm_DirBranch>:
SendPos(2026)
return
<cm_DirBranchSel>:
SendPos(2046)
return
<cm_50Percent>:
SendPos(909)
return
<cm_100Percent>:
SendPos(910)
return
<cm_VisDirTabs>:
SendPos(2916)
return
<cm_VisXPThemeBackground>:
SendPos(2923)
return
<cm_SwitchOverlayIcons>:
SendPos(2917)
return
<cm_VisHistHotButtons>:
SendPos(2919)
return
<cm_SwitchWatchDirs>:
SendPos(2921)
return
<cm_SwitchIgnoreList>:
SendPos(2922)
return
<cm_SwitchX64Redirection>:
SendPos(2925)
return
<cm_SeparateTreeOff>:
SendPos(3200)
return
<cm_SeparateTree1>:
SendPos(3201)
return
<cm_SeparateTree2>:
SendPos(3202)
return
<cm_SwitchSeparateTree>:
SendPos(3203)
return
<cm_ToggleSeparateTree1>:
SendPos(3204)
return
<cm_ToggleSeparateTree2>:
SendPos(3205)
return
<cm_ChangeArchiveEncoding>:
SendPos(2948)
return
<cm_SwitchDarkmode>:
SendPos(2950)
return
<cm_EnableDarkmode>:
SendPos(2951)
return
<cm_DisableDarkmode>:
SendPos(2952)
return
<cm_UserMenu1>:
SendPos(701)
return
<cm_UserMenu2>:
SendPos(702)
return
<cm_UserMenu3>:
SendPos(703)
return
<cm_UserMenu4>:
SendPos(704)
return
<cm_UserMenu5>:
SendPos(705)
return
<cm_UserMenu6>:
SendPos(706)
return
<cm_UserMenu7>:
SendPos(707)
return
<cm_UserMenu8>:
SendPos(708)
return
<cm_UserMenu9>:
SendPos(709)
return
<cm_UserMenu10>:
SendPos(710)
return
<cm_OpenNewTab>:
SendPos(3001)
return
<cm_OpenNewTabBg>:
SendPos(3002)
return
<cm_OpenDirInNewTab>:
SendPos(3003)
return
<cm_OpenDirInNewTabOther>:
SendPos(3004)
return
<cm_SwitchToNextTab>:
SendPos(3005)
return
<cm_SwitchToPreviousTab>:
SendPos(3006)
return
<cm_MoveTabLeft>:
SendPos(3015)
return
<cm_MoveTabRight>:
SendPos(3016)
return
<cm_CloseCurrentTab>:
SendPos(3007)
return
<cm_CloseAllTabs>:
SendPos(3008)
return
<cm_DirTabsShowMenu>:
SendPos(3009)
return
<cm_ToggleLockCurrentTab>:
SendPos(3010)
return
<cm_ToggleLockDcaCurrentTab>:
SendPos(3012)
return
<cm_ExchangeWithTabs>:
SendPos(535)
return
<cm_GoToLockedDir>:
SendPos(3011)
return
<cm_SrcActivateTab1>:
SendPos(5001)
return
<cm_SrcActivateTab2>:
SendPos(5002)
return
<cm_SrcActivateTab3>:
SendPos(5003)
return
<cm_SrcActivateTab4>:
SendPos(5004)
return
<cm_SrcActivateTab5>:
SendPos(5005)
return
<cm_SrcActivateTab6>:
SendPos(5006)
return
<cm_SrcActivateTab7>:
SendPos(5007)
return
<cm_SrcActivateTab8>:
SendPos(5008)
return
<cm_SrcActivateTab9>:
SendPos(5009)
return
<cm_SrcActivateTab10>:
SendPos(5010)
return
<cm_TrgActivateTab1>:
SendPos(5101)
return
<cm_TrgActivateTab2>:
SendPos(5102)
return
<cm_TrgActivateTab3>:
SendPos(5103)
return
<cm_TrgActivateTab4>:
SendPos(5104)
return
<cm_TrgActivateTab5>:
SendPos(5105)
return
<cm_TrgActivateTab6>:
SendPos(5106)
return
<cm_TrgActivateTab7>:
SendPos(5107)
return
<cm_TrgActivateTab8>:
SendPos(5108)
return
<cm_TrgActivateTab9>:
SendPos(5109)
return
<cm_TrgActivateTab10>:
SendPos(5110)
return
<cm_LeftActivateTab1>:
SendPos(5201)
return
<cm_LeftActivateTab2>:
SendPos(5202)
return
<cm_LeftActivateTab3>:
SendPos(5203)
return
<cm_LeftActivateTab4>:
SendPos(5204)
return
<cm_LeftActivateTab5>:
SendPos(5205)
return
<cm_LeftActivateTab6>:
SendPos(5206)
return
<cm_LeftActivateTab7>:
SendPos(5207)
return
<cm_LeftActivateTab8>:
SendPos(5208)
return
<cm_LeftActivateTab9>:
SendPos(5209)
return
<cm_LeftActivateTab10>:
SendPos(5210)
return
<cm_RightActivateTab1>:
SendPos(5301)
return
<cm_RightActivateTab2>:
SendPos(5302)
return
<cm_RightActivateTab3>:
SendPos(5303)
return
<cm_RightActivateTab4>:
SendPos(5304)
return
<cm_RightActivateTab5>:
SendPos(5305)
return
<cm_RightActivateTab6>:
SendPos(5306)
return
<cm_RightActivateTab7>:
SendPos(5307)
return
<cm_RightActivateTab8>:
SendPos(5308)
return
<cm_RightActivateTab9>:
SendPos(5309)
return
<cm_RightActivateTab10>:
SendPos(5310)
return
<cm_SrcSortByCol1>:
SendPos(6001)
return
<cm_SrcSortByCol2>:
SendPos(6002)
return
<cm_SrcSortByCol3>:
SendPos(6003)
return
<cm_SrcSortByCol4>:
SendPos(6004)
return
<cm_SrcSortByCol5>:
SendPos(6005)
return
<cm_SrcSortByCol6>:
SendPos(6006)
return
<cm_SrcSortByCol7>:
SendPos(6007)
return
<cm_SrcSortByCol8>:
SendPos(6008)
return
<cm_SrcSortByCol9>:
SendPos(6009)
return
<cm_SrcSortByCol10>:
SendPos(6010)
return
<cm_SrcSortByCol99>:
SendPos(6099)
return
<cm_TrgSortByCol1>:
SendPos(6101)
return
<cm_TrgSortByCol2>:
SendPos(6102)
return
<cm_TrgSortByCol3>:
SendPos(6103)
return
<cm_TrgSortByCol4>:
SendPos(6104)
return
<cm_TrgSortByCol5>:
SendPos(6105)
return
<cm_TrgSortByCol6>:
SendPos(6106)
return
<cm_TrgSortByCol7>:
SendPos(6107)
return
<cm_TrgSortByCol8>:
SendPos(6108)
return
<cm_TrgSortByCol9>:
SendPos(6109)
return
<cm_TrgSortByCol10>:
SendPos(6110)
return
<cm_TrgSortByCol99>:
SendPos(6199)
return
<cm_LeftSortByCol1>:
SendPos(6201)
return
<cm_LeftSortByCol2>:
SendPos(6202)
return
<cm_LeftSortByCol3>:
SendPos(6203)
return
<cm_LeftSortByCol4>:
SendPos(6204)
return
<cm_LeftSortByCol5>:
SendPos(6205)
return
<cm_LeftSortByCol6>:
SendPos(6206)
return
<cm_LeftSortByCol7>:
SendPos(6207)
return
<cm_LeftSortByCol8>:
SendPos(6208)
return
<cm_LeftSortByCol9>:
SendPos(6209)
return
<cm_LeftSortByCol10>:
SendPos(6210)
return
<cm_LeftSortByCol99>:
SendPos(6299)
return
<cm_RightSortByCol1>:
SendPos(6301)
return
<cm_RightSortByCol2>:
SendPos(6302)
return
<cm_RightSortByCol3>:
SendPos(6303)
return
<cm_RightSortByCol4>:
SendPos(6304)
return
<cm_RightSortByCol5>:
SendPos(6305)
return
<cm_RightSortByCol6>:
SendPos(6306)
return
<cm_RightSortByCol7>:
SendPos(6307)
return
<cm_RightSortByCol8>:
SendPos(6308)
return
<cm_RightSortByCol9>:
SendPos(6309)
return
<cm_RightSortByCol10>:
SendPos(6310)
return
<cm_RightSortByCol99>:
SendPos(6399)
return
<cm_SrcCustomView1>:
SendPos(271)
return
<cm_SrcCustomView2>:
SendPos(272)
return
<cm_SrcCustomView3>:
SendPos(273)
return
<cm_SrcCustomView4>:
SendPos(274)
return
<cm_SrcCustomView5>:
SendPos(275)
return
<cm_SrcCustomView6>:
SendPos(276)
return
<cm_SrcCustomView7>:
SendPos(277)
return
<cm_SrcCustomView8>:
SendPos(278)
return
<cm_SrcCustomView9>:
SendPos(279)
return
<cm_TrgCustomView1>:
SendPos(421)
return
<cm_TrgCustomView2>:
SendPos(422)
return
<cm_TrgCustomView3>:
SendPos(423)
return
<cm_TrgCustomView4>:
SendPos(424)
return
<cm_TrgCustomView5>:
SendPos(425)
return
<cm_TrgCustomView6>:
SendPos(426)
return
<cm_TrgCustomView7>:
SendPos(427)
return
<cm_TrgCustomView8>:
SendPos(428)
return
<cm_TrgCustomView9>:
SendPos(429)
return
<cm_LeftCustomView1>:
SendPos(71)
return
<cm_LeftCustomView2>:
SendPos(72)
return
<cm_LeftCustomView3>:
SendPos(73)
return
<cm_LeftCustomView4>:
SendPos(74)
return
<cm_LeftCustomView5>:
SendPos(75)
return
<cm_LeftCustomView6>:
SendPos(76)
return
<cm_LeftCustomView7>:
SendPos(77)
return
<cm_LeftCustomView8>:
SendPos(78)
return
<cm_LeftCustomView9>:
SendPos(79)
return
<cm_RightCustomView1>:
SendPos(171)
return
<cm_RightCustomView2>:
SendPos(172)
return
<cm_RightCustomView3>:
SendPos(173)
return
<cm_RightCustomView4>:
SendPos(174)
return
<cm_RightCustomView5>:
SendPos(175)
return
<cm_RightCustomView6>:
SendPos(176)
return
<cm_RightCustomView7>:
SendPos(177)
return
<cm_RightCustomView8>:
SendPos(178)
return
<cm_RightCustomView9>:
SendPos(179)
return
<cm_SrcNextCustomView>:
SendPos(5501)
return
<cm_SrcPrevCustomView>:
SendPos(5502)
return
<cm_TrgNextCustomView>:
SendPos(5503)
return
<cm_TrgPrevCustomView>:
SendPos(5504)
return
<cm_LeftNextCustomView>:
SendPos(5505)
return
<cm_LeftPrevCustomView>:
SendPos(5506)
return
<cm_RightNextCustomView>:
SendPos(5507)
return
<cm_RightPrevCustomView>:
SendPos(5508)
return
<cm_LoadAllOnDemandFields>:
SendPos(5512)
return
<cm_LoadSelOnDemandFields>:
SendPos(5513)
return
<cm_ContentStopLoadFields>:
SendPos(5514)
return
<cm_LeftSwitchToThisCustomView>:
SendPos(5510)
return
<cm_RightSwitchToThisCustomView>:
SendPos(5511)
return
<cm_ToggleAutoViewModeSwitch>:
SendPos(2947)
return
<cm_SrcViewMode0>:
SendPos(8500)
return
<cm_SrcViewMode1>:
SendPos(8501)
return
<cm_SrcViewMode2>:
SendPos(8502)
return
<cm_SrcViewMode3>:
SendPos(8503)
return
<cm_SrcViewMode4>:
SendPos(8504)
return
<cm_SrcViewMode5>:
SendPos(8505)
return
<cm_SrcViewMode6>:
SendPos(8506)
return
<cm_SrcViewMode7>:
SendPos(8507)
return
<cm_SrcViewMode8>:
SendPos(8508)
return
<cm_SrcViewMode9>:
SendPos(8509)
return
<cm_TrgViewMode0>:
SendPos(8750)
return
<cm_TrgViewMode1>:
SendPos(8751)
return
<cm_TrgViewMode2>:
SendPos(8752)
return
<cm_TrgViewMode3>:
SendPos(8753)
return
<cm_TrgViewMode4>:
SendPos(8754)
return
<cm_TrgViewMode5>:
SendPos(8755)
return
<cm_TrgViewMode6>:
SendPos(8756)
return
<cm_TrgViewMode7>:
SendPos(8757)
return
<cm_TrgViewMode8>:
SendPos(8758)
return
<cm_TrgViewMode9>:
SendPos(8759)
return
<cm_LeftViewMode0>:
SendPos(8000)
return
<cm_LeftViewMode1>:
SendPos(8001)
return
<cm_LeftViewMode2>:
SendPos(8002)
return
<cm_LeftViewMode3>:
SendPos(8003)
return
<cm_LeftViewMode4>:
SendPos(8004)
return
<cm_LeftViewMode5>:
SendPos(8005)
return
<cm_LeftViewMode6>:
SendPos(8006)
return
<cm_LeftViewMode7>:
SendPos(8007)
return
<cm_LeftViewMode8>:
SendPos(8008)
return
<cm_LeftViewMode9>:
SendPos(8009)
return
<cm_RightViewMode0>:
SendPos(8250)
return
<cm_RightViewMode1>:
SendPos(8251)
return
<cm_RightViewMode2>:
SendPos(8252)
return
<cm_RightViewMode3>:
SendPos(8253)
return
<cm_RightViewMode4>:
SendPos(8254)
return
<cm_RightViewMode5>:
SendPos(8255)
return
<cm_RightViewMode6>:
SendPos(8256)
return
<cm_RightViewMode7>:
SendPos(8257)
return
<cm_RightViewMode8>:
SendPos(8258)
return
<cm_RightViewMode9>:
SendPos(8259)
return
| AutoHotkey | 3 | Jvcon/vimdesktop | Plugins/TotalCommander/TCCommand.ahk | [
"MIT"
] |
/*
* Copyright 2013 The Sculptor Project Team, including the original
* author or authors.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package org.sculptor.generator.transform
import java.util.List
import javax.inject.Inject
import org.eclipse.xtext.EcoreUtil2
import org.sculptor.dsl.sculptordsl.DslAnyProperty
import org.sculptor.dsl.sculptordsl.DslApplication
import org.sculptor.dsl.sculptordsl.DslAttribute
import org.sculptor.dsl.sculptordsl.DslBasicType
import org.sculptor.dsl.sculptordsl.DslCollectionType
import org.sculptor.dsl.sculptordsl.DslCommandEvent
import org.sculptor.dsl.sculptordsl.DslConsumer
import org.sculptor.dsl.sculptordsl.DslDataTransferObject
import org.sculptor.dsl.sculptordsl.DslDependency
import org.sculptor.dsl.sculptordsl.DslDomainEvent
import org.sculptor.dsl.sculptordsl.DslDomainObject
import org.sculptor.dsl.sculptordsl.DslDomainObjectOperation
import org.sculptor.dsl.sculptordsl.DslDtoAttribute
import org.sculptor.dsl.sculptordsl.DslDtoReference
import org.sculptor.dsl.sculptordsl.DslEntity
import org.sculptor.dsl.sculptordsl.DslEnum
import org.sculptor.dsl.sculptordsl.DslEnumAttribute
import org.sculptor.dsl.sculptordsl.DslEnumParameter
import org.sculptor.dsl.sculptordsl.DslEnumValue
import org.sculptor.dsl.sculptordsl.DslEvent
import org.sculptor.dsl.sculptordsl.DslHttpMethod
import org.sculptor.dsl.sculptordsl.DslInheritanceType
import org.sculptor.dsl.sculptordsl.DslModule
import org.sculptor.dsl.sculptordsl.DslParameter
import org.sculptor.dsl.sculptordsl.DslPublish
import org.sculptor.dsl.sculptordsl.DslReference
import org.sculptor.dsl.sculptordsl.DslRepository
import org.sculptor.dsl.sculptordsl.DslRepositoryOperation
import org.sculptor.dsl.sculptordsl.DslResource
import org.sculptor.dsl.sculptordsl.DslResourceOperation
import org.sculptor.dsl.sculptordsl.DslService
import org.sculptor.dsl.sculptordsl.DslServiceDependency
import org.sculptor.dsl.sculptordsl.DslServiceOperation
import org.sculptor.dsl.sculptordsl.DslSimpleDomainObject
import org.sculptor.dsl.sculptordsl.DslSubscribe
import org.sculptor.dsl.sculptordsl.DslTrait
import org.sculptor.dsl.sculptordsl.DslValueObject
import org.sculptor.generator.check.CheckCrossLink
import org.sculptor.generator.ext.Helper
import org.sculptor.generator.ext.Properties
import org.sculptor.generator.util.HelperBase
import sculptormetamodel.Application
import sculptormetamodel.CommandEvent
import sculptormetamodel.DataTransferObject
import sculptormetamodel.DomainEvent
import sculptormetamodel.DomainObject
import sculptormetamodel.Event
import sculptormetamodel.InheritanceType
import sculptormetamodel.NamedElement
import sculptormetamodel.Repository
import sculptormetamodel.SculptormetamodelFactory
import sculptormetamodel.Service
import sculptormetamodel.Trait
/**
* Transforms DSL meta model to generator meta model.
*/
class DslTransformation {
static val SculptormetamodelFactory FACTORY = SculptormetamodelFactory.eINSTANCE
@Inject extension HelperBase helperBase
@Inject extension Helper helper
@Inject extension Properties properties
@Inject extension DslTransformationHelper transformationHelper
@Inject extension CheckCrossLink checkCrossLink
var Application globalApp
def create FACTORY.createApplication transform(DslApplication app) {
globalApp = it
val List<DslModule> allDslModules = EcoreUtil2.eAllOfType(app, typeof(DslModule))
allDslModules.forEach[checkCrossLink()]
setDoc(app.doc)
setName(app.name)
setBasePackage(app.basePackage)
modules.addAll(allDslModules.map[e | transform(e)])
// Transforming the dependencies must happen after all elements defined in the modules are initialized - otherwise we end up with multiple instances
allDslModules.map[services].flatten.forEach[transformDependencies(it)]
allDslModules.map[resources].flatten.forEach[transformDependencies(it)]
allDslModules.map[consumers].flatten.forEach[transformDependencies(it)]
allDslModules.map[domainObjects].flatten.filter[it instanceof DslDomainObject].map[it as DslDomainObject].
forEach[transformDependencies(it)]
// Scaffolding must happen after all elements defined in the modules are initialized - otherwise we end up with multiple instances
allDslModules.map[domainObjects].flatten.filter[it instanceof DslDomainObject].map[it as DslDomainObject].
filter[scaffold].forEach[scaffold(it)]
allDslModules.map[resources].flatten.filter[scaffold].forEach[scaffold(it)]
}
def create FACTORY.createModule transform(DslModule module) {
setApplication(globalApp)
setDoc(module.doc)
setName(module.name)
setHint(module.hint)
setExternal(!isModuleToBeGenerated(module.name))
setBasePackage(module.basePackage)
domainObjects.addAll(module.domainObjects.map[e | transformSimpleDomainObject(e)])
services.addAll(module.services.map[e | transform(e)])
resources.addAll(module.resources.map[e | transform(e)])
consumers.addAll(module.consumers.map[e | transform(e)])
}
def create FACTORY.createService transform(DslService service) {
setModule((service.eContainer as DslModule).transform)
setDoc(service.doc)
setName(service.name)
setGapClass(service.isGapClassToBeGenerated())
setWebService(service.webService)
setHint(service.hint)
// these hints will probably be replaced by real keywords in DSL
setRemoteInterface(if (hasHint("notRemote")) false else true)
setLocalInterface(if (hasHint("notLocal")) false else true)
if (service.subscribe !== null)
setSubscribe(service.subscribe.transform)
operations.addAll(service.operations.map[op | op.transform])
}
def create FACTORY.createResource transform(DslResource resource) {
setModule((resource.eContainer as DslModule).transform)
setDoc(resource.doc)
setName(resource.name)
setGapClass(resource.isGapClassToBeGenerated())
setHint(resource.hint)
setPath(resource.path)
operations.addAll(resource.operations.map[e | transform(e)])
}
def create FACTORY.createConsumer transform(DslConsumer consumer) {
setModule((consumer.eContainer as DslModule).transform)
setDoc(consumer.doc)
setName(consumer.name)
setHint(consumer.hint)
if (consumer.messageRoot !== null)
setMessageRoot(consumer.messageRoot.transformSimpleDomainObject)
if (consumer.subscribe !== null)
setSubscribe(consumer.subscribe.transform)
setChannel(if (consumer.channel === null && subscribe !== null) subscribe.topic else consumer.channel)
if (subscribe === null && channel !== null)
setSubscribe(createSubscribe(consumer, channel))
}
def create FACTORY.createSubscribe createSubscribe(DslConsumer consumer, String channel) {
setTopic(channel)
}
def create FACTORY.createSubscribe transform(DslSubscribe subscribe) {
setEventBus(subscribe.eventBus)
setTopic(subscribe.topic)
}
def create FACTORY.createPublish transform(DslPublish publish) {
setEventBus(publish.eventBus)
setTopic(publish.topic)
setEventType(if (publish.eventType === null) null else publish.eventType.transformSimpleDomainObject as Event)
if (eventBus === null && eventType !== null && eventType instanceof CommandEvent)
setEventBus("commandBus")
}
def create FACTORY.createServiceOperation transform(DslServiceOperation operation) {
setService((operation.eContainer as DslService).transform)
setDoc(operation.doc)
setName(operation.name)
setVisibility(convertVisibility(operation.visibility))
parameters.addAll(operation.parameters.map[e | transform(e)])
setCollectionType(convertCollectionType(operation.returnType))
setMapKeyType(if (operation.returnType === null) null else operation.returnType.mapKeyType)
setMapKeyDomainObjectType(if (operation.returnType === null || operation.returnType.mapKeyDomainObjectType === null)
null
else
operation.returnType.mapKeyDomainObjectType.transformSimpleDomainObject)
setType(if (operation.returnType === null) null else operation.returnType.type)
setDomainObjectType(if (operation.returnType === null || operation.returnType.domainObjectType === null)
null
else
operation.returnType.domainObjectType.transformSimpleDomainObject)
setThrows(operation.^throws)
setHint(operation.hint)
if (operation.publish !== null)
setPublish(operation.publish.transform)
if ((operation.delegateHolder !== null) && (operation.delegateHolder.delegate !== null) && (operation.delegateHolder.delegate instanceof DslRepository))
setDelegate((operation.delegateHolder.delegateOperation as DslRepositoryOperation).transform)
if ((operation.delegateHolder !== null) && (operation.delegateHolder.delegate !== null) && (operation.delegateHolder.delegate instanceof DslService))
setServiceDelegate(((operation.delegateHolder.delegateOperation as DslServiceOperation)).transform)
}
def create FACTORY.createResourceOperation transform(DslResourceOperation operation) {
setResource((operation.eContainer as DslResource).transform)
setDoc(operation.doc)
setName(operation.name)
setVisibility(convertVisibility(operation.visibility))
parameters.addAll(operation.parameters.map[e | transform(e)])
setCollectionType(convertCollectionType(operation.returnType))
setMapKeyType(if (operation.returnType === null) null else operation.returnType.mapKeyType)
setMapKeyDomainObjectType(if (operation.returnType === null || operation.returnType.mapKeyDomainObjectType === null)
null
else
operation.returnType.mapKeyDomainObjectType.transformSimpleDomainObject)
setType(if (operation.returnType === null) null else operation.returnType.type)
setDomainObjectType(if (operation.returnType === null || operation.returnType.domainObjectType === null)
null
else
operation.returnType.domainObjectType.transformSimpleDomainObject)
setThrows(operation.^throws)
setHint(operation.hint)
setPath(operation.path)
setReturnString(operation.returnString)
if (operation.httpMethod !== null && operation.httpMethod != DslHttpMethod.NONE)
setHttpMethod(operation.httpMethod.toString().mapHttpMethod())
if ((operation.delegateHolder !== null) && (operation.delegateHolder.delegate !== null))
setDelegate((operation.delegateHolder.delegateOperation).transform)
}
def create FACTORY.createDomainObjectOperation transform(DslDomainObjectOperation operation) {
setDomainObject((operation.eContainer as DslSimpleDomainObject).transformSimpleDomainObject)
setDoc(operation.doc)
setName(operation.name)
setAbstract(operation.^abstract)
setVisibility(convertVisibility(operation.visibility))
parameters.addAll(operation.parameters.map[e | transform(e)])
setCollectionType(convertCollectionType(operation.returnType))
setMapKeyType(if (operation.returnType === null) null else operation.returnType.mapKeyType)
setMapKeyDomainObjectType(if (operation.returnType === null || operation.returnType.mapKeyDomainObjectType === null)
null
else
operation.returnType.mapKeyDomainObjectType.transformSimpleDomainObject)
setType(if (operation.returnType === null) null else operation.returnType.type)
setDomainObjectType(if (operation.returnType === null || operation.returnType.domainObjectType === null)
null
else
operation.returnType.domainObjectType.transformSimpleDomainObject)
setThrows(operation.^throws)
setHint(operation.hint)
}
def create FACTORY.createRepositoryOperation transform(DslRepositoryOperation operation) {
setRepository((operation.eContainer as DslRepository).transform)
setDoc(operation.doc)
setName(operation.name)
setVisibility(convertVisibility(operation.visibility))
parameters.addAll(operation.parameters.map[e | transform(e)])
setCollectionType(convertCollectionType(operation.returnType))
setMapKeyType(if (operation.returnType === null) null else operation.returnType.mapKeyType)
setMapKeyDomainObjectType(if (operation.returnType === null || operation.returnType.mapKeyDomainObjectType === null)
null
else
operation.returnType.mapKeyDomainObjectType.transformSimpleDomainObject)
setType(if (operation.returnType === null) null else operation.returnType.type)
setDomainObjectType(if (operation.returnType === null || operation.returnType.domainObjectType === null)
null
else
operation.returnType.domainObjectType.transformSimpleDomainObject)
setThrows(operation.^throws)
setHint(operation.hint)
setDelegateToAccessObject(operation.delegateToAccessObject)
setAccessObjectName(operation.accessObjectName)
if (operation.publish !== null)
setPublish(operation.publish.transform)
if (operation.cache)
addHint("cache")
if (operation.construct) addHint("construct")
if (operation.build) addHint("build")
if (operation.gapOperation) addHint("gap")
if (operation.query !== null) addHint("query=" + operation.query, ";")
if (operation.^select !== null) addHint("select=" + operation.^select, ";")
if (operation.condition !== null) addHint("condition=" + operation.condition, ";")
if (operation.groupBy !== null) addHint("groupBy=" + operation.groupBy, ";")
if (operation.orderBy !== null) addHint("orderBy=" + operation.orderBy, ";")
}
def create FACTORY.createParameter transform(DslParameter parameter) {
setName(parameter.name)
setDoc(parameter.doc)
setCollectionType(convertCollectionType(parameter.parameterType))
setMapKeyType(if (parameter.parameterType === null) null else parameter.parameterType.mapKeyType)
setMapKeyDomainObjectType(if (parameter.parameterType === null || parameter.parameterType.mapKeyDomainObjectType === null)
null
else
parameter.parameterType.mapKeyDomainObjectType.transformSimpleDomainObject)
setType(if(parameter.parameterType === null) null else parameter.parameterType.type)
setDomainObjectType(if (parameter.parameterType === null || parameter.parameterType.domainObjectType === null)
null
else
parameter.parameterType.domainObjectType.transformSimpleDomainObject)
}
private def DomainObject dummyCreateDomainObject() {
null
}
// this "method" is not used, it is kind of "abstract"
def dispatch create dummyCreateDomainObject transformSimpleDomainObject(DslSimpleDomainObject domainObject) {
error("Wrong type of domainObject "+domainObject.name+"["+ (domainObject.^class.simpleName) +"] passed into transformSimpleDomainObject")
}
def dispatch create FACTORY.createEntity transformSimpleDomainObject(DslEntity domainObject) {
setModule((domainObject.eContainer as DslModule).transform)
setDoc(domainObject.doc)
setName(domainObject.name)
setPackage(domainObject.^package)
setAbstract(domainObject.^abstract)
setOptimisticLocking(!domainObject.notOptimisticLocking)
setAuditable(!domainObject.notAuditable)
setCache(domainObject.cache)
setDatabaseTable(domainObject.databaseTable)
setBelongsToAggregate(if (domainObject.belongsTo === null) null else domainObject.belongsTo.transformSimpleDomainObject)
setAggregateRoot(!domainObject.notAggregateRoot && (domainObject.belongsTo === null || domainObject.belongsTo == domainObject))
setValidate(domainObject.validate)
setGapClass(isGapClassToBeGenerated(domainObject.gapClass, domainObject.noGapClass))
setHint(domainObject.hint)
setDiscriminatorColumnValue(domainObject.discriminatorValue)
setInheritance(domainObject.createInheritance())
attributes.addAll(domainObject.attributes.map[e | transform(e)])
references.addAll(domainObject.references.map[e | transform(e)])
operations.addAll(domainObject.operations.map[e | transform(e)])
domainObject.transformExtends(it)
traits.addAll(domainObject.traits.map[e | transformSimpleDomainObject(e) as Trait])
if (domainObject.repository !== null)
setRepository(domainObject.repository.transform)
}
def dispatch create FACTORY.createValueObject transformSimpleDomainObject(DslValueObject domainObject) {
setModule((domainObject.eContainer as DslModule).transform)
setDoc(domainObject.doc)
setName(domainObject.name)
setPackage(domainObject.^package)
setAbstract(domainObject.^abstract)
setOptimisticLocking(!domainObject.notOptimisticLocking)
setImmutable(!domainObject.notImmutable)
setCache(domainObject.cache)
setDatabaseTable(domainObject.databaseTable)
setBelongsToAggregate(if (domainObject.belongsTo === null) null else domainObject.belongsTo.transformSimpleDomainObject)
setAggregateRoot(!domainObject.notAggregateRoot && !domainObject.notPersistent && (domainObject.belongsTo === null || domainObject.belongsTo == domainObject))
setPersistent(!domainObject.notPersistent)
setValidate(domainObject.validate)
setHint(domainObject.hint)
setGapClass(isGapClassToBeGenerated(domainObject.gapClass, domainObject.noGapClass))
setDiscriminatorColumnValue(domainObject.discriminatorValue)
setInheritance(domainObject.createInheritance())
attributes.addAll(domainObject.attributes.map[e | transform(e)])
references.addAll(domainObject.references.map[e | transform(e)])
operations.addAll(domainObject.operations.map[e | transform(e)])
domainObject.transformExtends(it)
traits.addAll(domainObject.traits.map[e | transformSimpleDomainObject(e) as Trait])
if (domainObject.repository !== null)
setRepository(domainObject.repository.transform)
}
def dispatch create FACTORY.createDomainEvent transformSimpleDomainObject(DslEvent dslEvent) {
// Never used, only purpose is to be an 'abstract' placeholder
error("Unexpected call to transform(DslEvent): " + dslEvent)
}
def dispatch create FACTORY.createDomainEvent transformSimpleDomainObject(DslDomainEvent dslEvent) {
transformCommonEventFeatures(it, dslEvent)
}
def dispatch create FACTORY.createCommandEvent transformSimpleDomainObject(DslCommandEvent dslEvent) {
transformCommonEventFeatures(it, dslEvent)
}
def void transformCommonEventFeatures(Event event, DslEvent dslEvent) {
event.setModule((dslEvent.eContainer as DslModule).transform)
event.setDoc(dslEvent.doc)
event.setName(dslEvent.name)
event.setPackage(dslEvent.^package)
event.setAbstract(dslEvent.^abstract)
event.setOptimisticLocking(false)
event.setCache(dslEvent.cache)
event.setDatabaseTable(dslEvent.databaseTable)
event.setBelongsToAggregate(if (dslEvent.belongsTo === null) null else dslEvent.belongsTo.transformSimpleDomainObject)
event.setAggregateRoot(!dslEvent.notAggregateRoot && dslEvent.persistent && (dslEvent.belongsTo === null || dslEvent.belongsTo == dslEvent))
event.setPersistent(dslEvent.persistent)
event.setValidate(dslEvent.validate)
event.setHint(dslEvent.hint)
event.setGapClass(isGapClassToBeGenerated(dslEvent.gapClass, dslEvent.noGapClass))
event.setDiscriminatorColumnValue(dslEvent.discriminatorValue)
event.setInheritance(dslEvent.createInheritance())
event.attributes.addAll(dslEvent.attributes.map[e | transform(e)])
event.references.addAll(dslEvent.references.map[e | transform(e)])
event.operations.addAll(dslEvent.operations.map[e | transform(e)])
dslEvent.transformExtendsEvent(event)
event.traits.addAll(dslEvent.traits.map[e | transformSimpleDomainObject(e) as Trait])
if (dslEvent.repository !== null)
event.setRepository(dslEvent.repository.transform)
}
def dispatch create FACTORY.createDataTransferObject transformSimpleDomainObject(DslDataTransferObject dslDto) {
setModule((dslDto.eContainer as DslModule).transform)
setDoc(dslDto.doc)
setName(dslDto.name)
setPackage(dslDto.^package)
setAbstract(dslDto.^abstract)
setImmutable(false)
setPersistent(false)
setAggregateRoot(false)
setValidate(dslDto.validate)
setHint(dslDto.hint)
setGapClass(isGapClassToBeGenerated(dslDto.gapClass, dslDto.noGapClass))
attributes.addAll(dslDto.attributes.map[e | transform(e)])
references.addAll(dslDto.references.map[e | transform(e)])
dslDto.transformExtends(it)
}
def dispatch create FACTORY.createTrait transformSimpleDomainObject(DslTrait dslTrait) {
setModule((dslTrait.eContainer as DslModule).transform)
setDoc(dslTrait.doc)
setName(dslTrait.name)
setPackage(dslTrait.^package)
setAbstract(true)
setAggregateRoot(false)
setHint(dslTrait.hint)
setGapClass(true)
attributes.addAll(dslTrait.attributes.map[e | transform(e)])
references.addAll(dslTrait.references.map[e | transform(e)])
operations.addAll(dslTrait.operations.map[e | transform(e)])
}
def create FACTORY.createInheritance createInheritance(DslDomainObject domainObject) {
setType(if (domainObject.inheritanceType == DslInheritanceType.SINGLE_TABLE)
InheritanceType.SINGLE_TABLE
else
InheritanceType.JOINED)
setDiscriminatorColumnName(domainObject.discriminatorColumn)
setDiscriminatorColumnLength(domainObject.discriminatorLength)
setDiscriminatorType(mapDiscriminatorType(domainObject.discriminatorType))
}
def transformExtends(DslEntity dslDomainObject, DomainObject domainObject) {
dslDomainObject.transformExtendsImpl(dslDomainObject.^extends, domainObject)
}
def transformExtends(DslValueObject dslDomainObject, DomainObject domainObject) {
dslDomainObject.transformExtendsImpl(dslDomainObject.^extends, domainObject)
}
def dispatch transformExtendsEvent(DslEvent dslEvent, DomainObject domainObject) {
// Never used, only purpose is to be an 'abstract' placeholder
error("Unexpected call to transformExtends(DslEvent): " + dslEvent)
}
def dispatch transformExtendsEvent(DslCommandEvent dslDomainObject, DomainObject domainObject) {
dslDomainObject.transformExtendsImpl(dslDomainObject.^extends, domainObject)
}
def dispatch transformExtendsEvent(DslDomainEvent dslDomainObject, DomainObject domainObject) {
dslDomainObject.transformExtendsImpl(dslDomainObject.^extends, domainObject)
}
def dispatch transformExtendsEvent(DslDomainEvent dslEvent, DomainEvent event) {
if (dslEvent.^extends !== null)
event.setExtends(dslEvent.^extends.transformSimpleDomainObject)
if (dslEvent.extendsName !== null)
event.setExtendsName(dslEvent.extendsName)
}
def transformExtendsImpl(DslDomainObject dslDomainObject, DslDomainObject dslExtendsDomainObject, DomainObject domainObject) {
if (dslExtendsDomainObject !== null)
domainObject.setExtends(dslExtendsDomainObject.transformSimpleDomainObject)
if (dslDomainObject.extendsName !== null)
domainObject.setExtendsName(dslDomainObject.extendsName)
}
def transformExtends(DslDataTransferObject dslDto, DataTransferObject dto) {
if (dslDto.^extends !== null)
dto.setExtends(dslDto.^extends.transformSimpleDomainObject)
if (dslDto.extendsName !== null)
dto.setExtendsName(dslDto.extendsName)
}
def dispatch create FACTORY.createBasicType transformSimpleDomainObject(DslBasicType domainObject) {
setModule((domainObject.eContainer as DslModule).transform)
setDoc(domainObject.doc)
setName(domainObject.name)
setPackage(domainObject.^package)
setHint(domainObject.hint)
setImmutable(!domainObject.notImmutable)
setAggregateRoot(false)
setGapClass(isGapClassToBeGenerated(domainObject.gapClass, domainObject.noGapClass))
attributes.addAll(domainObject.attributes.map[e | transform(e)])
references.addAll(domainObject.references.map[e | transform(e)])
operations.addAll(domainObject.operations.map[e | transform(e)])
traits.addAll(domainObject.traits.map[e | transformSimpleDomainObject(e) as Trait])
}
def dispatch create FACTORY.createEnum transformSimpleDomainObject(DslEnum domainObject) {
setModule((domainObject.eContainer as DslModule).transform)
setDoc(domainObject.doc)
setName(domainObject.name)
setPackage(domainObject.^package)
setHint(domainObject.hint)
setOrdinal(domainObject.ordinal)
setAggregateRoot(false)
attributes.addAll(domainObject.attributes.map[e | transform(e)])
values.addAll(domainObject.values.map[e | transform(e)])
}
def create FACTORY.createEnumValue transform(DslEnumValue enumValue) {
setName(enumValue.name)
setDoc(enumValue.doc)
parameters.addAll(enumValue.parameters.map[e | transform(e)])
}
def create FACTORY.createEnumConstructorParameter transform(DslEnumParameter parameter) {
if (parameter.value === null)
setValue("" + parameter.integerValue)
else
setValue(parameter.value)
}
def create FACTORY.createAttribute transform(DslEnumAttribute attribute) {
setDoc(attribute.doc)
setName(attribute.name)
setType(attribute.type)
setNaturalKey(attribute.key)
}
def NamedElement transform(DslAnyProperty prop) {
// Never used, only purpose is to be an 'abstract' placeholder
error("Unexpected call to transform(DslAnyProperty): " + prop)
null
}
def create FACTORY.createAttribute transform(DslAttribute attribute) {
setDoc(attribute.doc)
setName(attribute.name)
setType(attribute.type)
setCollectionType(convertCollectionTypeEnum(attribute.collectionType))
setNaturalKey(attribute.key)
setChangeable(!attribute.notChangeable)
setRequired(attribute.required)
setNullable(attribute.nullable)
setIndex(attribute.index)
setLength(attribute.length)
setValidate(attribute.handleValidation())
setDatabaseType(attribute.databaseType)
setDatabaseColumn(attribute.databaseColumn)
setHint(attribute.hint)
setTransient(attribute.transient)
setVisibility(convertVisibility(attribute.visibility))
}
def create FACTORY.createReference transform(DslReference reference) {
setFrom((reference.eContainer as DslSimpleDomainObject).transformSimpleDomainObject)
setDoc(reference.doc)
setName(reference.name)
setCollectionType(convertCollectionTypeEnum(reference.collectionType))
setMany(reference.collectionType !== null && reference.collectionType != DslCollectionType.NONE)
setNaturalKey(reference.key)
setChangeable(!reference.notChangeable)
setRequired(reference.required)
setNullable(reference.nullable)
setCache(reference.cache)
setInverse(reference.inverse)
setCascade(reference.cascade)
setFetch(reference.fetch)
setOrderBy(reference.orderBy)
setTo(reference.domainObjectType.transformSimpleDomainObject)
setDatabaseColumn(reference.databaseColumn)
setDatabaseJoinTable(reference.databaseJoinTable)
setDatabaseJoinColumn(reference.databaseJoinColumn)
setValidate(reference.handleValidation())
setHint(reference.hint)
setTransient(reference.transient)
setVisibility(convertVisibility(reference.visibility))
if (reference.oppositeHolder !== null && reference.oppositeHolder.opposite !== null)
setOpposite(reference.oppositeHolder.opposite.transform)
if (reference.orderColumn) addHint(buildOrderColumnHint(reference))
// backwards compatible hint
if (hasHint("joinTableName")) setDatabaseJoinTable(getHint("joinTableName"))
if (hasHint("joinColumnName")) setDatabaseJoinColumn(getHint("joinColumnName"))
}
def create FACTORY.createAttribute transform(DslDtoAttribute attribute) {
setDoc(attribute.doc)
setName(attribute.name)
setType(attribute.type)
setCollectionType(convertCollectionTypeEnum(attribute.collectionType))
setNaturalKey(attribute.key)
setChangeable(!attribute.notChangeable)
setRequired(attribute.required)
setNullable(attribute.nullable)
setValidate(attribute.handleValidation())
setHint(attribute.hint)
setTransient(attribute.transient)
setVisibility(convertVisibility(attribute.visibility))
}
def create FACTORY.createReference transform(DslDtoReference reference) {
setFrom((reference.eContainer as DslSimpleDomainObject).transformSimpleDomainObject)
setDoc(reference.doc)
setName(reference.name)
setCollectionType(convertCollectionTypeEnum(reference.collectionType))
setMany(reference.collectionType !== null && reference.collectionType != DslCollectionType.NONE)
setNaturalKey(reference.key)
setChangeable(!reference.notChangeable)
setRequired(reference.required)
setNullable(reference.nullable)
setTo(reference.domainObjectType.transformSimpleDomainObject)
setValidate(reference.handleValidation())
setHint(reference.hint)
setTransient(reference.transient)
setVisibility(convertVisibility(reference.visibility))
}
def create FACTORY.createRepository transform(DslRepository repository) {
setAggregateRoot((repository.eContainer as DslDomainObject).transformSimpleDomainObject)
setDoc(repository.doc)
setName(repository.name)
setGapClass(repository.isGapClassToBeGenerated())
setHint(repository.hint)
if (repository.subscribe !== null)
setSubscribe(repository.subscribe.transform)
operations.addAll(repository.operations.map[e | transform(e)])
}
def void transformDependencies(DslService service) {
service.transform.serviceDependencies.addAll(
service.dependencies.map[e | transformServiceDependency(e)].filter[e | e !== null])
service.transform.repositoryDependencies.addAll(
service.dependencies.map[e | transformRepositoryDependency(e)].filter[e | e !== null])
service.transform.otherDependencies.addAll(
service.dependencies.map[e | transformOtherDependency(e)].filter[e | e !== null])
}
def void transformDependencies(DslResource resource) {
resource.transform.serviceDependencies.addAll(
resource.dependencies.map[e | transformServiceDependency(e)].filter[e | e !== null])
}
def void transformDependencies(DslConsumer consumer) {
consumer.transform.serviceDependencies.addAll(
consumer.dependencies.map[e | transformServiceDependency(e)].filter[e | e !== null])
consumer.transform.repositoryDependencies.addAll(
consumer.dependencies.map[e | transformRepositoryDependency(e)].filter[e | e !== null])
consumer.transform.otherDependencies.addAll(
consumer.dependencies.map[e | transformOtherDependency(e)].filter[e | e !== null])
}
def Repository transformRepositoryDependency(DslDependency dependency) {
if (dependency.dependency !== null && dependency.dependency instanceof DslRepository)
(dependency.dependency as DslRepository).transform
else
null
}
def Service transformServiceDependency(DslServiceDependency dependency) {
if (dependency.dependency !== null)
dependency.dependency.transform
else
null
}
def Service transformServiceDependency(DslDependency dependency) {
if (dependency.dependency !== null && dependency.dependency instanceof DslService)
(dependency.dependency as DslService).transform
else
null
}
def String transformOtherDependency(DslDependency dependency) {
if (dependency.name === null)
null
else
dependency.name
}
def void transformDependencies(DslDomainObject domainObject) {
if (domainObject.repository !== null)
domainObject.repository.transformDependencies
}
def void transformDependencies(DslRepository repository) {
repository.transform.repositoryDependencies.addAll(
repository.dependencies.map[e | transformRepositoryDependency(e)].filter(r | r !== null))
repository.transform.otherDependencies.addAll(
repository.dependencies.map[e | transformOtherDependency(e)].filter(r | r !== null))
}
def void scaffold(DslDomainObject domainObject) {
domainObject.transformSimpleDomainObject.scaffold
}
def void scaffold(DslResource resource) {
resource.transform.scaffold
}
}
| Xtend | 4 | sculptor/sculptor | sculptor-generator/sculptor-generator-core/src/main/java/org/sculptor/generator/transform/DslTransformation.xtend | [
"Apache-2.0"
] |
-- get chc;
-- store v1;
-- load v1;
-- put chb ;
-- get cha ;
-- store v2 ;
-- load v2 ;
-- put chc
-- close cha;
-- close chb ;
-- close chc ;
-- halt console ;
-- Above program in the "Fancy" Syntax.
%handles:
IntTerm =
Get
Put
Close
%cohandles:
Console =
Get
Put
Close
%run ( | console => intTerm4 ,intTerm5,intTerm3) :
-- get on chc
hput intTerm4 IntTerm.Get
get intTerm4; store c
load c
-- put on chb
hput intTerm5 IntTerm.Put
put intTerm5
-- get on cha
hput intTerm3 IntTerm.Get
get intTerm3; store a
load a
-- put on chc
hput intTerm4 IntTerm.Put
put intTerm4
-- close channels
hput intTerm4 IntTerm.Close
close intTerm4
hput intTerm5 IntTerm.Close
close intTerm5
hput intTerm3 IntTerm.Close
close intTerm3
hput console Console.Close
halt console
| AMPL | 3 | prashant007/AMPL | myAMPL/src/test9.ampl | [
"MIT"
] |
varying vec2 vTextureCoord;
uniform sampler2D uSampler;
uniform float uAlpha;
void main(void)
{
gl_FragColor = texture2D(uSampler, vTextureCoord) * uAlpha;
}
| GLSL | 4 | fanlistener/pixijs | packages/filters/filter-alpha/src/alpha.frag | [
"MIT"
] |
--TEST--
SCCP 030: TYPE_CHECK inferred from type inference info
--INI--
opcache.enable=1
opcache.enable_cli=1
opcache.optimization_level=-1
opcache.opt_debug_level=0
--EXTENSIONS--
opcache
--FILE--
<?php
var_dump(is_string(sys_get_temp_dir()));
?>
--EXPECT--
bool(true)
| PHP | 2 | NathanFreeman/php-src | ext/opcache/tests/opt/sccp_030.phpt | [
"PHP-3.01"
] |
<!--
~ Copyright 2018 Google LLC
~
~ Licensed under the Apache License, Version 2.0 (the "License");
~ you may not use this file except in compliance with the License.
~ You may obtain a copy of the License at
~
~ https://www.apache.org/licenses/LICENSE-2.0
~
~ Unless required by applicable law or agreed to in writing, software
~ distributed under the License is distributed on an "AS IS" BASIS,
~ WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
~ See the License for the specific language governing permissions and
~ limitations under the License.
-->
<vector xmlns:android="http://schemas.android.com/apk/res/android"
android:width="24dp"
android:height="24dp"
android:viewportWidth="40"
android:viewportHeight="40">
<path
android:fillColor="#5bb974"
android:pathData="M20,0a20,20 0 1,1 0,40a20,20 0 1,1 0,-40" />
<path
android:fillColor="#fff"
android:pathData="M20,0a20,20 0 1,1 0,40a20,20 0 1,1 0,-40M20,3a17,17 0 0,0 0,34a17,17 0 0,0 0,-34" />
<path
android:fillColor="#fff"
android:pathData="M14.02,26.13c0.59,-0.59,6.15,-6.17,6.63,-6.68c0.64,-0.69,1.69,-1.72,1.68,-3.3c-0.06,-1.84,-1.76,-2.21,-2.53,-2.21c-0.92,0,-2.13,0.4,-2.79,2.23l-3.14,-1.3c0.96,-2.86,3.44,-4.3,5.99,-4.21c2.4,0.07,6.05,1.4,6.01,5.33c-0.2,4.39,-5.23,8.1,-7.21,10.09l0.08,0.16l7.37,0l0,3.06l-12.09,0l0,-3.17z" />
</vector>
| XML | 1 | Abhishekhm777/GoogleIO | mobile/src/main/res/drawable/map_marker_2.xml | [
"ECL-2.0",
"Apache-2.0"
] |
{{{
* item 1
''item''
== dd ==
}}}
* item 2
| Creole | 0 | jquorning/ada-wiki | regtests/files/wiki/pre.creole | [
"Apache-2.0"
] |
.class public Lothers/TestCls$B;
.super Lothers/TestCls$A;
.source "TestCls.java"
# annotations
.annotation system Ldalvik/annotation/EnclosingClass;
value = Lothers/TestCls;
.end annotation
.annotation system Ldalvik/annotation/InnerClass;
accessFlags = 0x1
name = "B"
.end annotation
# instance fields
.field final synthetic this$0:Lothers/TestCls;
# direct methods
.method public constructor <init>(Lothers/TestCls;)V
.registers 2
.param p1, "this$0" # Lothers/TestCls;
.prologue
.line 9
iput-object p1, p0, Lothers/TestCls$B;->this$0:Lothers/TestCls;
invoke-direct {p0, p1}, Lothers/TestCls$A;-><init>(Lothers/TestCls;)V
return-void
.end method
# virtual methods
.method protected test()V
.registers 1
.prologue
.line 11
return-void
.end method
| Smali | 2 | Dev-kishan1999/jadx | jadx-core/src/test/smali/others/TestBadMethodAccessModifiers/TestCls$B.smali | [
"Apache-2.0"
] |
### test api
GET http://{{host}}/hi
Accept: text/html
> {%
client.test("Request executed successfully", function() {
client.assert(response.status === 200, "Response status is not 200");
});
%}
### test api2
GET http://{{host}}/hello
Accept: text/plain
###
| HTTP | 3 | zhaozhijun321/swoft-learn | test/httptest/sample.http | [
"Apache-2.0"
] |
// D import file generated from 'kernel/kernel.d'
// @(compute(CompileFor.deviceOnly))
module kernel;
// import ldc.dcompute : GlobalPointer, kernel, compute, CompileFor;
// import dcompute.std.index;
// import dcompute.std.atomic;
// import dcompute.std.sync;
nothrow @nogc extern (C++)
{
/* @(kernel) */void saxpy(float* res, const float* x, const float* y, int N);
/* @(kernel) */void relu(float* x, int N);
/* @(kernel) */void reluGrad(float* gx, const float* gy, const float* x, int N);
/* @(kernel) */void sum(const float* x, float* result, int N);
/* @(kernel) */void sum_faster(const float* x, float* result, uint n, uint N);
/* @(kernel) */void nll(float* loss, uint* count, const float* logp, const int* targetId, int ignoreIndex, uint batchSize, int logpStride);
/* @(kernel) */void nllGrad(float* glogP, float coeff, const int* targetId, int ignoreIndex, uint batchSize, int logpStride);
/* @(kernel) */void addBias(float* y, const float* b, uint blen, uint ylen);
/* @(kernel) */void addBiasGrad(const float* gy, float* gb, uint blen, uint ylen);
/* @(kernel) */void reciprocal(float* x, uint len, uint ndim, const uint* shape, const uint* strides);
/* @(kernel) */void log(float* x, uint len, uint ndim, const uint* shape, const uint* strides);
/* @(kernel) */void log2(float* x, uint len, uint ndim, const uint* shape, const uint* strides);
/* @(kernel) */void log10(float* x, uint len, uint ndim, const uint* shape, const uint* strides);
/* @(kernel) */void exp(float* x, uint len, uint ndim, const uint* shape, const uint* strides);
/* @(kernel) */void exp2(float* x, uint len, uint ndim, const uint* shape, const uint* strides);
/* @(kernel) */void exp10(float* x, uint len, uint ndim, const uint* shape, const uint* strides);
/* @(kernel) */void sin(float* x, uint len, uint ndim, const uint* shape, const uint* strides);
/* @(kernel) */void cos(float* x, uint len, uint ndim, const uint* shape, const uint* strides);
/* @(kernel) */void tan(float* x, uint len, uint ndim, const uint* shape, const uint* strides);
/* @(kernel) */void pow(float power, float* x, uint len, uint ndim, const uint* shape, const uint* strides);
/* @(kernel) */void powGrad(float power, float* x, uint len, uint ndim, const uint* shape, const uint* strides);
/* @(kernel) */void neg(float* x, uint len, uint ndim, const uint* shape, const uint* strides);
/* @(kernel) */void abs(float* x, uint len, uint ndim, const uint* shape, const uint* strides);
/* @(kernel) */void absGrad(float* x, uint len, uint ndim, const uint* shape, const uint* strides);
/* @(kernel) */void embedding(const float* w, const int* x, float* y, uint nvocab, uint nembed, uint nbatch);
/* @(kernel) */void embeddingGrad(float* gw, const int* x, const float* gy, uint nvocab, uint nembed, uint nbatch);
}
| D | 4 | CyberShadow/grain | kernel/kernel.di | [
"BSL-1.0"
] |
/*
* Copyright 2002-2019 the original author or authors.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* https://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package org.springframework.web.reactive.result
import io.mockk.every
import io.mockk.mockk
import kotlinx.coroutines.delay
import org.assertj.core.api.Assertions.assertThat
import org.junit.jupiter.api.Test
import org.springframework.http.HttpStatus
import org.springframework.http.server.reactive.ServerHttpResponse
import org.springframework.web.testfixture.http.server.reactive.MockServerHttpRequest.get
import org.springframework.web.testfixture.server.MockServerWebExchange
import org.springframework.web.bind.annotation.ResponseStatus
import org.springframework.web.reactive.BindingContext
import org.springframework.web.reactive.HandlerResult
import org.springframework.web.reactive.result.method.HandlerMethodArgumentResolver
import org.springframework.web.reactive.result.method.InvocableHandlerMethod
import org.springframework.web.reactive.result.method.annotation.ContinuationHandlerMethodArgumentResolver
import reactor.core.publisher.Mono
import reactor.test.StepVerifier
import java.lang.reflect.Method
import kotlin.reflect.jvm.javaMethod
class KotlinInvocableHandlerMethodTests {
private val exchange = MockServerWebExchange.from(get("http://localhost:8080/path"))
private val resolvers = mutableListOf<HandlerMethodArgumentResolver>(ContinuationHandlerMethodArgumentResolver())
@Test
fun resolveNoArg() {
this.resolvers.add(stubResolver(Mono.empty()))
val method = CoroutinesController::singleArg.javaMethod!!
val result = invoke(CoroutinesController(), method, null)
assertHandlerResultValue(result, "success:null")
}
@Test
fun resolveArg() {
this.resolvers.add(stubResolver("foo"))
val method = CoroutinesController::singleArg.javaMethod!!
val result = invoke(CoroutinesController(), method,"foo")
assertHandlerResultValue(result, "success:foo")
}
@Test
fun resolveNoArgs() {
val method = CoroutinesController::noArgs.javaMethod!!
val result = invoke(CoroutinesController(), method)
assertHandlerResultValue(result, "success")
}
@Test
fun invocationTargetException() {
val method = CoroutinesController::exceptionMethod.javaMethod!!
val result = invoke(CoroutinesController(), method)
StepVerifier.create(result)
.consumeNextWith { StepVerifier.create(it.returnValue as Mono<*>).expectError(IllegalStateException::class.java).verify() }
.verifyComplete()
}
@Test
fun responseStatusAnnotation() {
val method = CoroutinesController::created.javaMethod!!
val result = invoke(CoroutinesController(), method)
assertHandlerResultValue(result, "created")
assertThat(this.exchange.response.statusCode).isSameAs(HttpStatus.CREATED)
}
@Test
fun voidMethodWithResponseArg() {
val response = this.exchange.response
this.resolvers.add(stubResolver(response))
val method = CoroutinesController::response.javaMethod!!
val result = invoke(CoroutinesController(), method)
StepVerifier.create(result)
.consumeNextWith { StepVerifier.create(it.returnValue as Mono<*>).verifyComplete() }
.verifyComplete()
assertThat(this.exchange.response.headers.getFirst("foo")).isEqualTo("bar")
}
private fun invoke(handler: Any, method: Method, vararg providedArgs: Any?): Mono<HandlerResult> {
val invocable = InvocableHandlerMethod(handler, method)
invocable.setArgumentResolvers(this.resolvers)
return invocable.invoke(this.exchange, BindingContext(), *providedArgs)
}
private fun stubResolver(stubValue: Any?): HandlerMethodArgumentResolver {
return stubResolver(Mono.justOrEmpty(stubValue))
}
private fun stubResolver(stubValue: Mono<Any>): HandlerMethodArgumentResolver {
val resolver = mockk<HandlerMethodArgumentResolver>()
every { resolver.supportsParameter(any()) } returns true
every { resolver.resolveArgument(any(), any(), any()) } returns stubValue
return resolver
}
private fun assertHandlerResultValue(mono: Mono<HandlerResult>, expected: String) {
StepVerifier.create(mono)
.consumeNextWith { StepVerifier.create(it.returnValue as Mono<*>).expectNext(expected).verifyComplete() }
.verifyComplete()
}
class CoroutinesController {
suspend fun singleArg(q: String?): String {
delay(10)
return "success:$q"
}
suspend fun noArgs(): String {
delay(10)
return "success"
}
suspend fun exceptionMethod() {
throw IllegalStateException("boo")
}
@ResponseStatus(HttpStatus.CREATED)
suspend fun created(): String {
delay(10)
return "created"
}
suspend fun response(response: ServerHttpResponse) {
delay(10)
response.headers.add("foo", "bar")
}
}
} | Kotlin | 4 | ZiaYang/spring-framework | spring-webflux/src/test/kotlin/org/springframework/web/reactive/result/KotlinInvocableHandlerMethodTests.kt | [
"Apache-2.0"
] |
--TEST--
SOAP Interop Round2 groupB 004 (php/direct): echoNestedStruct
--EXTENSIONS--
soap
--INI--
precision=14
--FILE--
<?php
$param = (object)array(
'varString' => "arg",
'varInt' => 34,
'varFloat' => 123.45,
'varStruct' => (object)array(
'varString' => "arg2",
'varInt' => 342,
'varFloat' => 123.452,
));
$client = new SoapClient(NULL,array("location"=>"test://","uri"=>"http://soapinterop.org/","trace"=>1,"exceptions"=>0));
$client->__soapCall("echoNestedStruct", array($param), array("soapaction"=>"http://soapinterop.org/","uri"=>"http://soapinterop.org/"));
echo $client->__getlastrequest();
$HTTP_RAW_POST_DATA = $client->__getlastrequest();
include("round2_groupB.inc");
echo "ok\n";
?>
--EXPECT--
<?xml version="1.0" encoding="UTF-8"?>
<SOAP-ENV:Envelope xmlns:SOAP-ENV="http://schemas.xmlsoap.org/soap/envelope/" xmlns:ns1="http://soapinterop.org/" xmlns:xsd="http://www.w3.org/2001/XMLSchema" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xmlns:SOAP-ENC="http://schemas.xmlsoap.org/soap/encoding/" SOAP-ENV:encodingStyle="http://schemas.xmlsoap.org/soap/encoding/"><SOAP-ENV:Body><ns1:echoNestedStruct><param0 xsi:type="SOAP-ENC:Struct"><varString xsi:type="xsd:string">arg</varString><varInt xsi:type="xsd:int">34</varInt><varFloat xsi:type="xsd:float">123.45</varFloat><varStruct xsi:type="SOAP-ENC:Struct"><varString xsi:type="xsd:string">arg2</varString><varInt xsi:type="xsd:int">342</varInt><varFloat xsi:type="xsd:float">123.452</varFloat></varStruct></param0></ns1:echoNestedStruct></SOAP-ENV:Body></SOAP-ENV:Envelope>
<?xml version="1.0" encoding="UTF-8"?>
<SOAP-ENV:Envelope xmlns:SOAP-ENV="http://schemas.xmlsoap.org/soap/envelope/" xmlns:ns1="http://soapinterop.org/" xmlns:xsd="http://www.w3.org/2001/XMLSchema" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xmlns:ns2="http://soapinterop.org/xsd" xmlns:SOAP-ENC="http://schemas.xmlsoap.org/soap/encoding/" SOAP-ENV:encodingStyle="http://schemas.xmlsoap.org/soap/encoding/"><SOAP-ENV:Body><ns1:echoNestedStructResponse><return xsi:type="ns2:SOAPStructStruct"><varString xsi:type="xsd:string">arg</varString><varInt xsi:type="xsd:int">34</varInt><varFloat xsi:type="xsd:float">123.45</varFloat><varStruct xsi:type="ns2:SOAPStruct"><varString xsi:type="xsd:string">arg2</varString><varInt xsi:type="xsd:int">342</varInt><varFloat xsi:type="xsd:float">123.452</varFloat></varStruct></return></ns1:echoNestedStructResponse></SOAP-ENV:Body></SOAP-ENV:Envelope>
ok
| PHP | 3 | NathanFreeman/php-src | ext/soap/tests/interop/Round2/GroupB/r2_groupB_004p.phpt | [
"PHP-3.01"
] |
# stub eclass
| Gentoo Eclass | 0 | mgorny/pkgcheck | tests/repos/standalone/eclass/stub.eclass | [
"BSD-3-Clause"
] |
"""The unifiprotect integration discovery."""
from __future__ import annotations
import asyncio
from dataclasses import asdict
from datetime import timedelta
import logging
from typing import Any
from unifi_discovery import AIOUnifiScanner, UnifiDevice, UnifiService
from homeassistant import config_entries
from homeassistant.core import HomeAssistant, callback
from homeassistant.helpers.event import async_track_time_interval
from .const import DOMAIN
_LOGGER = logging.getLogger(__name__)
DISCOVERY = "discovery"
DISCOVERY_INTERVAL = timedelta(minutes=60)
@callback
def async_start_discovery(hass: HomeAssistant) -> None:
"""Start discovery."""
domain_data = hass.data.setdefault(DOMAIN, {})
if DISCOVERY in domain_data:
return
domain_data[DISCOVERY] = True
async def _async_discovery(*_: Any) -> None:
async_trigger_discovery(hass, await async_discover_devices())
# Do not block startup since discovery takes 31s or more
asyncio.create_task(_async_discovery())
async_track_time_interval(hass, _async_discovery, DISCOVERY_INTERVAL)
async def async_discover_devices() -> list[UnifiDevice]:
"""Discover devices."""
scanner = AIOUnifiScanner()
devices = await scanner.async_scan()
_LOGGER.debug("Found devices: %s", devices)
return devices
@callback
def async_trigger_discovery(
hass: HomeAssistant,
discovered_devices: list[UnifiDevice],
) -> None:
"""Trigger config flows for discovered devices."""
for device in discovered_devices:
if device.services[UnifiService.Protect] and device.hw_addr:
hass.async_create_task(
hass.config_entries.flow.async_init(
DOMAIN,
context={"source": config_entries.SOURCE_INTEGRATION_DISCOVERY},
data=asdict(device),
)
)
| Python | 5 | MrDelik/core | homeassistant/components/unifiprotect/discovery.py | [
"Apache-2.0"
] |
# Module example in Elixir
defmodule Example do
use GenServer
def fact(0, accum) do
accum
end
def fact(n, accum \\ 1) do
fact(n - 1, accum * n)
end
end
| Elixir | 4 | Earthman100/spyder | spyder/plugins/completion/providers/fallback/tests/data/example.ex | [
"MIT"
] |
/*
* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership.
* The ASF licenses this file to You under the Apache License, Version 2.0
* (the "License"); you may not use this file except in compliance with
* the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package org.apache.spark.scheduler.cluster.k8s
import io.fabric8.kubernetes.client.KubernetesClient
import org.mockito.{Mock, MockitoAnnotations}
import org.mockito.Mockito.when
import org.scalatest.BeforeAndAfter
import org.apache.spark._
import org.apache.spark.deploy.k8s.Config._
class KubernetesClusterManagerSuite extends SparkFunSuite with BeforeAndAfter {
@Mock
private var kubernetesClient: KubernetesClient = _
@Mock
private var sc: SparkContext = _
@Mock
private var env: SparkEnv = _
@Mock
private var sparkConf: SparkConf = _
before {
MockitoAnnotations.openMocks(this).close()
when(sc.conf).thenReturn(sparkConf)
when(sc.conf.get(KUBERNETES_DRIVER_POD_NAME)).thenReturn(None)
when(sc.env).thenReturn(env)
}
test("constructing a AbstractPodsAllocator works") {
val validConfigs = List("statefulset", "direct",
"org.apache.spark.scheduler.cluster.k8s.StatefulsetPodsAllocator",
"org.apache.spark.scheduler.cluster.k8s.ExecutorPodsAllocator")
validConfigs.foreach { c =>
val manager = new KubernetesClusterManager()
when(sc.conf.get(KUBERNETES_ALLOCATION_PODS_ALLOCATOR)).thenReturn(c)
manager.makeExecutorPodsAllocator(sc, kubernetesClient, null)
}
}
}
| Scala | 4 | akhalymon-cv/spark | resource-managers/kubernetes/core/src/test/scala/org/apache/spark/scheduler/cluster/k8s/KubernetesClusterManagerSuite.scala | [
"Apache-2.0"
] |
<?xml version="1.0" encoding="UTF-8"?>
<faces-config>
<faces-config-extension>
<namespace-uri>http://www.ibm.com/xsp/custom</namespace-uri>
<default-prefix>xc</default-prefix>
</faces-config-extension>
<composite-component>
<component-type>ccBSDatePickerFull</component-type>
<composite-name>ccBSDatePickerFull</composite-name>
<composite-file>/ccBSDatePickerFull.xsp</composite-file>
<composite-extension>
<designer-extension>
<in-palette>true</in-palette>
<render-markup><?xml version="1.0" encoding="UTF-8"?>
<xp:view xmlns:xp="http://www.ibm.com/xsp/core">
<xp:panel style="border:1px solid green;margin:2px;margin-left:20px;width:250px">
<span style="font-weight:bold;color:green">&#160;&#160;Date picker full:&#160;&#160;</span>
<span style="color:green"><%=this.fieldName%></span>
</xp:panel>
</xp:view></render-markup>
</designer-extension>
</composite-extension>
<property>
<property-name>fieldDataSource</property-name>
<property-class>com.ibm.xsp.model.DataSource</property-class>
<property-extension>
<required>true</required>
</property-extension>
</property>
<property>
<property-name>fieldName</property-name>
<property-class>string</property-class>
</property>
<property>
<property-name>dateFormat</property-name>
<property-class>string</property-class>
<description>date format, e.g. dd-MM-yyyy (use uppercase M for months!)</description>
<property-extension>
<required>true</required>
</property-extension>
</property>
<property>
<property-name>fieldLabel</property-name>
<property-class>string</property-class>
</property>
<property>
<property-name>required</property-name>
<property-class>boolean</property-class>
<property-extension>
<designer-extension>
<default-value>false</default-value>
</designer-extension>
</property-extension>
</property>
</composite-component>
</faces-config>
| XPages | 4 | IBM-FMC/TESTE | nsf/CustomControls/ccBSDatePickerFull.xsp-config | [
"Apache-2.0"
] |
/**
* @file double_hash_hash_table.cpp
* @author [achance6](https://github.com/achance6)
* @author [Krishna Vedala](https://github.com/kvedala)
* @brief Storage mechanism using [double-hashed
* keys](https://en.wikipedia.org/wiki/Double_hashing).
* @note The implementation can be optimized by using OOP style.
*/
#include <iostream>
#include <memory>
#include <vector>
/**
* @addtogroup open_addressing Open Addressing
* @{
* @namespace double_hashing
* @brief An implementation of hash table using [double
* hashing](https://en.wikipedia.org/wiki/Double_hashing) algorithm.
*/
namespace double_hashing {
// fwd declarations
using Entry = struct Entry;
bool putProber(const Entry& entry, int key);
bool searchingProber(const Entry& entry, int key);
void add(int key);
// Undocumented globals
int notPresent;
std::vector<Entry> table;
int totalSize;
int tomb = -1;
int size;
bool rehashing;
/** Node object that holds key */
struct Entry {
explicit Entry(int key = notPresent) : key(key) {} ///< constructor
int key; ///< key value
};
/**
* @brief Hash a key. Uses the STL library's `std::hash()` function.
*
* @param key value to hash
* @return hash value of the key
*/
size_t hashFxn(int key) {
std::hash<int> hash;
return hash(key);
}
/**
* @brief Used for second hash function
*
* @param key key value to hash
* @return hash value of the key
*/
size_t otherHashFxn(int key) {
std::hash<int> hash;
return 1 + (7 - (hash(key) % 7));
}
/**
* @brief Performs double hashing to resolve collisions
*
* @param key key value to apply double-hash on
* @param searching `true` to check for conflicts
* @return Index of key when found
* @return new hash if no conflicts present
*/
int doubleHash(int key, bool searching) {
int hash = static_cast<int>(hashFxn(key));
int i = 0;
Entry entry;
do {
int index =
static_cast<int>(hash + (i * otherHashFxn(key))) % totalSize;
entry = table[index];
if (searching) {
if (entry.key == notPresent) {
return notPresent;
}
if (searchingProber(entry, key)) {
std::cout << "Found key!" << std::endl;
return index;
}
std::cout << "Found tombstone or equal hash, checking next"
<< std::endl;
i++;
} else {
if (putProber(entry, key)) {
if (!rehashing) {
std::cout << "Spot found!" << std::endl;
}
return index;
}
if (!rehashing) {
std::cout << "Spot taken, looking at next (next index:"
<< " "
<< static_cast<int>(hash + (i * otherHashFxn(key))) %
totalSize
<< ")" << std::endl;
}
i++;
}
if (i == totalSize * 100) {
std::cout << "DoubleHash probe failed" << std::endl;
return notPresent;
}
} while (entry.key != notPresent);
return notPresent;
}
/** Finds empty spot in a vector
* @param entry vector to search in
* @param key key to search for
* @returns `true` if key is not present or is a `toumb`
* @returns `false` is already occupied
*/
bool putProber(const Entry& entry, int key) {
if (entry.key == notPresent || entry.key == tomb) {
return true;
}
return false;
}
/** Looks for a matching key
* @param entry vector to search in
* @param key key value to search
* @returns `true` if found
* @returns `false` if not found
*/
bool searchingProber(const Entry& entry, int key) {
if (entry.key == key) {
return true;
}
return false;
}
/** Displays the table
* @returns None
*/
void display() {
for (int i = 0; i < totalSize; i++) {
if (table[i].key == notPresent) {
std::cout << " Empty ";
} else if (table[i].key == tomb) {
std::cout << " Tomb ";
} else {
std::cout << " ";
std::cout << table[i].key;
std::cout << " ";
}
}
std::cout << std::endl;
}
/** Rehashes the table into a bigger table
* @returns None
*/
void rehash() {
// Necessary so wall of add info isn't printed all at once
rehashing = true;
int oldSize = totalSize;
std::vector<Entry> oldTable(table);
// Really this should use the next prime number greater than totalSize * 2
table = std::vector<Entry>(totalSize * 2);
totalSize *= 2;
for (int i = 0; i < oldSize; i++) {
if (oldTable[i].key != -1 && oldTable[i].key != notPresent) {
size--; // Size stays the same (add increments size)
add(oldTable[i].key);
}
}
// delete[] oldTable;
// oldTable.reset();
rehashing = false;
std::cout << "Table was rehashed, new size is: " << totalSize << std::endl;
}
/** Checks for load factor here
* @param key key value to add to the table
*/
void add(int key) {
// auto* entry = new Entry();
// entry->key = key;
int index = doubleHash(key, false);
table[index].key = key;
// Load factor greater than 0.5 causes resizing
if (++size / static_cast<double>(totalSize) >= 0.5) {
rehash();
}
}
/** Removes key. Leaves tombstone upon removal.
* @param key key value to remove
*/
void remove(int key) {
int index = doubleHash(key, true);
if (index == notPresent) {
std::cout << "key not found" << std::endl;
}
table[index].key = tomb;
std::cout << "Removal successful, leaving tombstone" << std::endl;
size--;
}
/** Information about the adding process
* @param key key value to add to table
*/
void addInfo(int key) {
std::cout << "Initial table: ";
display();
std::cout << std::endl;
std::cout << "hash of " << key << " is " << hashFxn(key) << " % "
<< totalSize << " == " << hashFxn(key) % totalSize;
std::cout << std::endl;
add(key);
std::cout << "New table: ";
display();
}
/** Information about removal process
* @param key key value to remove from table
*/
void removalInfo(int key) {
std::cout << "Initial table: ";
display();
std::cout << std::endl;
std::cout << "hash of " << key << " is " << hashFxn(key) << " % "
<< totalSize << " == " << hashFxn(key) % totalSize;
std::cout << std::endl;
remove(key);
std::cout << "New table: ";
display();
}
} // namespace double_hashing
/**
* @}
*/
using double_hashing::Entry;
using double_hashing::table;
using double_hashing::totalSize;
/** Main program
* @returns 0 on success
*/
int main() {
int cmd = 0, hash = 0, key = 0;
std::cout << "Enter the initial size of Hash Table. = ";
std::cin >> totalSize;
table = std::vector<Entry>(totalSize);
bool loop = true;
while (loop) {
std::cout << std::endl;
std::cout << "PLEASE CHOOSE -" << std::endl;
std::cout << "1. Add key. (Numeric only)" << std::endl;
std::cout << "2. Remove key." << std::endl;
std::cout << "3. Find key." << std::endl;
std::cout << "4. Generate Hash. (Numeric only)" << std::endl;
std::cout << "5. Display Hash table." << std::endl;
std::cout << "6. Exit." << std::endl;
std::cin >> cmd;
switch (cmd) {
case 1:
std::cout << "Enter key to add = ";
std::cin >> key;
double_hashing::addInfo(key);
break;
case 2:
std::cout << "Enter key to remove = ";
std::cin >> key;
double_hashing::removalInfo(key);
break;
case 3: {
std::cout << "Enter key to search = ";
std::cin >> key;
Entry entry = table[double_hashing::doubleHash(key, true)];
if (entry.key == double_hashing::notPresent) {
std::cout << "Key not present";
}
break;
}
case 4:
std::cout << "Enter element to generate hash = ";
std::cin >> key;
std::cout << "Hash of " << key
<< " is = " << double_hashing::hashFxn(key);
break;
case 5:
double_hashing::display();
break;
default:
loop = false;
break;
// delete[] table;
}
std::cout << std::endl;
}
return 0;
}
| C++ | 5 | icbdubey/C-Plus-Plus | hashing/double_hash_hash_table.cpp | [
"MIT"
] |
module Api.Time exposing
( Posix
, dateToString
, dateTimeToString
, encodeDate
, encodeDateTime
, dateDecoder
, dateTimeDecoder
)
import Http
import Iso8601
import Json.Decode
import Json.Encode
import Time
type alias Posix = Time.Posix
dateToString : Posix -> String
dateToString =
String.left 10 << dateTimeToString
dateTimeToString : Posix -> String
dateTimeToString =
Iso8601.fromTime
encodeDate : Posix -> Json.Encode.Value
encodeDate =
Json.Encode.string << dateToString
encodeDateTime : Posix -> Json.Encode.Value
encodeDateTime =
Json.Encode.string << dateTimeToString
dateDecoder : Json.Decode.Decoder Posix
dateDecoder =
Json.Decode.string
|> Json.Decode.andThen decodeDateIsoString
decodeDateIsoString : String -> Json.Decode.Decoder Posix
decodeDateIsoString str =
case Iso8601.toTime (str ++ "T00:00:00.000Z") of
Result.Ok posix ->
Json.Decode.succeed posix
Result.Err _ ->
Json.Decode.fail ("Invalid calendar date: " ++ str)
dateTimeDecoder : Json.Decode.Decoder Posix
dateTimeDecoder =
Json.Decode.string
|> Json.Decode.andThen decodeDateTimeIsoString
decodeDateTimeIsoString : String -> Json.Decode.Decoder Posix
decodeDateTimeIsoString str =
case Iso8601.toTime str of
Result.Ok posix ->
Json.Decode.succeed posix
Result.Err _ ->
Json.Decode.fail ("Invalid ISO date: " ++ str) | Elm | 4 | therockstorm/openapi-generator | samples/openapi3/client/elm/src/Api/Time.elm | [
"Apache-2.0"
] |
fun main () : transaction page =
x <- source <xml>TEST</xml>;
set x <xml>HI</xml>;
return <xml><body>
<dyn signal={signal x}/>
</body></xml>
| UrWeb | 1 | apple314159/urweb | tests/reactive2.ur | [
"BSD-3-Clause"
] |
{
"cells": [
{
"cell_type": "markdown",
"metadata": {},
"source": [
"# 504 Batch Normalization\n",
"\n",
"View more, visit my tutorial page: https://mofanpy.com/tutorials/\n",
"My Youtube Channel: https://www.youtube.com/user/MorvanZhou\n",
"\n",
"Dependencies:\n",
"* torch: 0.1.11\n",
"* matplotlib\n",
"* numpy"
]
},
{
"cell_type": "code",
"execution_count": 2,
"metadata": {
"collapsed": true
},
"outputs": [],
"source": [
"import torch\n",
"from torch.autograd import Variable\n",
"from torch import nn\n",
"from torch.nn import init\n",
"import torch.utils.data as Data\n",
"import torch.nn.functional as F\n",
"import matplotlib.pyplot as plt\n",
"import numpy as np\n",
"%matplotlib inline\n",
"\n",
"torch.manual_seed(1) # reproducible\n",
"np.random.seed(1)"
]
},
{
"cell_type": "code",
"execution_count": 3,
"metadata": {
"collapsed": true
},
"outputs": [],
"source": [
"# Hyper parameters\n",
"N_SAMPLES = 2000\n",
"BATCH_SIZE = 64\n",
"EPOCH = 12\n",
"LR = 0.03\n",
"N_HIDDEN = 8\n",
"ACTIVATION = F.tanh\n",
"B_INIT = -0.2 # use a bad bias constant initializer"
]
},
{
"cell_type": "code",
"execution_count": 4,
"metadata": {},
"outputs": [
{
"data": {
"text/plain": [
"<matplotlib.legend.Legend at 0x7f1a8e78f240>"
]
},
"execution_count": 4,
"metadata": {},
"output_type": "execute_result"
},
{
"data": {
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ypRmYn4LKUv3vEU1A71GJfd8I3P9eOHqPifwO09pCH4vBXY8ATq6Xrv6tLQOD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\nUsONmxd/AAAAAElFTkSuQmCC\n",
"text/plain": [
"<matplotlib.figure.Figure at 0x7f1a8e78f3c8>"
]
},
"metadata": {},
"output_type": "display_data"
}
],
"source": [
"# training data\n",
"x = np.linspace(-7, 10, N_SAMPLES)[:, np.newaxis]\n",
"noise = np.random.normal(0, 2, x.shape)\n",
"y = np.square(x) - 5 + noise\n",
"\n",
"# test data\n",
"test_x = np.linspace(-7, 10, 200)[:, np.newaxis]\n",
"noise = np.random.normal(0, 2, test_x.shape)\n",
"test_y = np.square(test_x) - 5 + noise\n",
"\n",
"train_x, train_y = torch.from_numpy(x).float(), torch.from_numpy(y).float()\n",
"test_x = Variable(torch.from_numpy(test_x).float(), volatile=True) # not for computing gradients\n",
"test_y = Variable(torch.from_numpy(test_y).float(), volatile=True)\n",
"\n",
"train_dataset = Data.TensorDataset(data_tensor=train_x, target_tensor=train_y)\n",
"train_loader = Data.DataLoader(dataset=train_dataset, batch_size=BATCH_SIZE, shuffle=True, num_workers=2,)\n",
"\n",
"# show data\n",
"plt.scatter(train_x.numpy(), train_y.numpy(), c='#FF9359', s=50, alpha=0.2, label='train')\n",
"plt.legend(loc='upper left')"
]
},
{
"cell_type": "code",
"execution_count": 5,
"metadata": {
"collapsed": true
},
"outputs": [],
"source": [
"class Net(nn.Module):\n",
" def __init__(self, batch_normalization=False):\n",
" super(Net, self).__init__()\n",
" self.do_bn = batch_normalization\n",
" self.fcs = []\n",
" self.bns = []\n",
" self.bn_input = nn.BatchNorm1d(1, momentum=0.5) # for input data\n",
"\n",
" for i in range(N_HIDDEN): # build hidden layers and BN layers\n",
" input_size = 1 if i == 0 else 10\n",
" fc = nn.Linear(input_size, 10)\n",
" setattr(self, 'fc%i' % i, fc) # IMPORTANT set layer to the Module\n",
" self._set_init(fc) # parameters initialization\n",
" self.fcs.append(fc)\n",
" if self.do_bn:\n",
" bn = nn.BatchNorm1d(10, momentum=0.5)\n",
" setattr(self, 'bn%i' % i, bn) # IMPORTANT set layer to the Module\n",
" self.bns.append(bn)\n",
"\n",
" self.predict = nn.Linear(10, 1) # output layer\n",
" self._set_init(self.predict) # parameters initialization\n",
"\n",
" def _set_init(self, layer):\n",
" init.normal(layer.weight, mean=0., std=.1)\n",
" init.constant(layer.bias, B_INIT)\n",
"\n",
" def forward(self, x):\n",
" pre_activation = [x]\n",
" if self.do_bn: x = self.bn_input(x) # input batch normalization\n",
" layer_input = [x]\n",
" for i in range(N_HIDDEN):\n",
" x = self.fcs[i](x)\n",
" pre_activation.append(x)\n",
" if self.do_bn: x = self.bns[i](x) # batch normalization\n",
" x = ACTIVATION(x)\n",
" layer_input.append(x)\n",
" out = self.predict(x)\n",
" return out, layer_input, pre_activation"
]
},
{
"cell_type": "code",
"execution_count": 6,
"metadata": {},
"outputs": [
{
"name": "stdout",
"output_type": "stream",
"text": [
"Net (\n",
" (bn_input): BatchNorm1d(1, eps=1e-05, momentum=0.5, affine=True)\n",
" (fc0): Linear (1 -> 10)\n",
" (fc1): Linear (10 -> 10)\n",
" (fc2): Linear (10 -> 10)\n",
" (fc3): Linear (10 -> 10)\n",
" (fc4): Linear (10 -> 10)\n",
" (fc5): Linear (10 -> 10)\n",
" (fc6): Linear (10 -> 10)\n",
" (fc7): Linear (10 -> 10)\n",
" (predict): Linear (10 -> 1)\n",
") Net (\n",
" (bn_input): BatchNorm1d(1, eps=1e-05, momentum=0.5, affine=True)\n",
" (fc0): Linear (1 -> 10)\n",
" (bn0): BatchNorm1d(10, eps=1e-05, momentum=0.5, affine=True)\n",
" (fc1): Linear (10 -> 10)\n",
" (bn1): BatchNorm1d(10, eps=1e-05, momentum=0.5, affine=True)\n",
" (fc2): Linear (10 -> 10)\n",
" (bn2): BatchNorm1d(10, eps=1e-05, momentum=0.5, affine=True)\n",
" (fc3): Linear (10 -> 10)\n",
" (bn3): BatchNorm1d(10, eps=1e-05, momentum=0.5, affine=True)\n",
" (fc4): Linear (10 -> 10)\n",
" (bn4): BatchNorm1d(10, eps=1e-05, momentum=0.5, affine=True)\n",
" (fc5): Linear (10 -> 10)\n",
" (bn5): BatchNorm1d(10, eps=1e-05, momentum=0.5, affine=True)\n",
" (fc6): Linear (10 -> 10)\n",
" (bn6): BatchNorm1d(10, eps=1e-05, momentum=0.5, affine=True)\n",
" (fc7): Linear (10 -> 10)\n",
" (bn7): BatchNorm1d(10, eps=1e-05, momentum=0.5, affine=True)\n",
" (predict): Linear (10 -> 1)\n",
")\n"
]
}
],
"source": [
"nets = [Net(batch_normalization=False), Net(batch_normalization=True)]\n",
"\n",
"print(*nets) # print net architecture"
]
},
{
"cell_type": "code",
"execution_count": 7,
"metadata": {
"collapsed": true
},
"outputs": [],
"source": [
"opts = [torch.optim.Adam(net.parameters(), lr=LR) for net in nets]\n",
"\n",
"loss_func = torch.nn.MSELoss()"
]
},
{
"cell_type": "code",
"execution_count": 10,
"metadata": {
"scrolled": true
},
"outputs": [
{
"name": "stdout",
"output_type": "stream",
"text": [
"Epoch: 0\n",
"Epoch: 1\n",
"Epoch: 2\n",
"Epoch: 3\n",
"Epoch: 4\n",
"Epoch: 5\n",
"Epoch: 6\n",
"Epoch: 7\n",
"Epoch: 8\n",
"Epoch: 9\n",
"Epoch: 10\n",
"Epoch: 11\n"
]
},
{
"data": {
"image/png": 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Zp0+/HEkr6cubjyR1zaSRpucss/0QYHfApkmSpsB5df2z+DH18eyHSZ+ee+P85YgI4LXA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\n",
"text/plain": [
"<matplotlib.figure.Figure at 0x7f1a8af019b0>"
]
},
"metadata": {},
"output_type": "display_data"
}
],
"source": [
"f, axs = plt.subplots(4, N_HIDDEN+1, figsize=(10, 5))\n",
"plt.ion() # something about plotting\n",
"def plot_histogram(l_in, l_in_bn, pre_ac, pre_ac_bn):\n",
" for i, (ax_pa, ax_pa_bn, ax, ax_bn) in enumerate(zip(axs[0, :], axs[1, :], axs[2, :], axs[3, :])):\n",
" [a.clear() for a in [ax_pa, ax_pa_bn, ax, ax_bn]]\n",
" if i == 0: p_range = (-7, 10);the_range = (-7, 10)\n",
" else:p_range = (-4, 4);the_range = (-1, 1)\n",
" ax_pa.set_title('L' + str(i))\n",
" ax_pa.hist(pre_ac[i].data.numpy().ravel(), bins=10, range=p_range, color='#FF9359', alpha=0.5);ax_pa_bn.hist(pre_ac_bn[i].data.numpy().ravel(), bins=10, range=p_range, color='#74BCFF', alpha=0.5)\n",
" ax.hist(l_in[i].data.numpy().ravel(), bins=10, range=the_range, color='#FF9359');ax_bn.hist(l_in_bn[i].data.numpy().ravel(), bins=10, range=the_range, color='#74BCFF')\n",
" for a in [ax_pa, ax, ax_pa_bn, ax_bn]: a.set_yticks(());a.set_xticks(())\n",
" ax_pa_bn.set_xticks(p_range);ax_bn.set_xticks(the_range)\n",
" axs[0, 0].set_ylabel('PreAct');axs[1, 0].set_ylabel('BN PreAct');axs[2, 0].set_ylabel('Act');axs[3, 0].set_ylabel('BN Act')\n",
" plt.pause(0.01)\n",
" \n",
"# training\n",
"losses = [[], []] # recode loss for two networks\n",
"for epoch in range(EPOCH):\n",
" print('Epoch: ', epoch)\n",
" layer_inputs, pre_acts = [], []\n",
" for net, l in zip(nets, losses):\n",
" net.eval() # set eval mode to fix moving_mean and moving_var\n",
" pred, layer_input, pre_act = net(test_x)\n",
" l.append(loss_func(pred, test_y).data[0])\n",
" layer_inputs.append(layer_input)\n",
" pre_acts.append(pre_act)\n",
" net.train() # free moving_mean and moving_var\n",
" plot_histogram(*layer_inputs, *pre_acts) # plot histogram\n",
"\n",
" for step, (b_x, b_y) in enumerate(train_loader):\n",
" b_x, b_y = Variable(b_x), Variable(b_y)\n",
" for net, opt in zip(nets, opts): # train for each network\n",
" pred, _, _ = net(b_x)\n",
" loss = loss_func(pred, b_y)\n",
" opt.zero_grad()\n",
" loss.backward()\n",
" opt.step() # it will also learns the parameters in Batch Normalization\n",
" \n",
"plt.ioff()"
]
},
{
"cell_type": "code",
"execution_count": 11,
"metadata": {},
"outputs": [
{
"data": {
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mrXmYWde4wzOA2EisF4BzzSzfzPoA/YCPgI+BfmbWx8zyCDrVX2jKmEVEZG9pq3mY2ePA\nGKCTmZUD1wFjzKwUcGAp8EMAd59tZk8SdIRXAf/q7tXhfS4HXgGygfvdfXa6YhYRkcSYu0cdQ1qU\nlZX51KlTow5DRKTFMLNp7l6WyLl6wlxERJKm5CEiIklT8hARkaQpeYiISNKUPEREJGlKHiIikjQl\nDxERSZqSh4iIJE3JQ0REkqbkISIiSVPyEBGRpCl5iIhI0pQ8REQkaUoeIiKSNCUPERFJmpKHiIgk\nTclDRESSpuQhIiJJS1vyMLP7zWyNmc2KK/u9mc0zsxlm9pyZtQ/Le5vZ12Y2PdzuirvmSDObaWYL\nzexWM7N0xSwiIolJZ83jQeCkPcqmAIPd/Qjgc+CquPcWuXtpuF0SV34ncDHQL9z2vKeIiDSxtCUP\nd38b2LBH2avuXhUefgD0aOgeZtYVKHL3D9zdgYeB09MRr4iIJC7KPo+LgJfijvuY2adm9jczOzos\n6w6Ux51THpbVycwmmtlUM5u6du3a1EcsIiJARMnDzK4BqoBHw6JVQC93Hwb8BHjMzIqSva+73+3u\nZe5eVlJSkrqARUSklpym/kAzmwD8EzAubIrC3XcAO8L9aWa2COgPrKB201aPsExERCLUpDUPMzsJ\n+A/gVHffFldeYmbZ4X5fgo7xxe6+CthsZqPCUVbnA883ZcwiIrK3tNU8zOxxYAzQyczKgesIRlfl\nA1PCEbcfhCOr/hH4tZlVAruAS9w91tl+GcHIrVYEfSTx/SQiIhIBC1uOMk5ZWZlPnTo16jBERFoM\nM5vm7mWJnKsnzEVEJGlKHnvYvn41Fau/jDoMEZFmLankYWZZ+zKEtqVYPHMWf/w4iz9/sp3qnTui\nDkdEpNlqNHmY2WNmVmRmhcAsYI6Z/Sz9oTWtzRsruOfLw9iQW8KyvN787Z3Pog5JRKTZSqTmMdDd\nNxNMC/IS0Af4XlqjikBRcXvGFX2x+/hVH87KmZ9GGJGISPOVSPLINbNcguTxgrtXAhk5RGtsWR96\n+moAqi2Hx7/oRNV6PZMoIrKnRJLH/wBLgULgbTM7GNiczqCikp1tnFvWjlzfCcCX+T159b3PoWpn\nxJGJiDQvjSYPd7/V3bu7+3gPLAPGNkFskejcvoDx3bfuPn6r9TEs+dvLEUYkItL8JNJhfkXYYW5m\ndp+ZfQIc2wSxReYfBnTg0LzgAXe3LP6ycwQ75n0QcVQiIs1HIs1WF4Ud5icAxQSd5TekNaqIZRmc\nU1ZMgQfDddfnHcSLc7bBxlURRyYi0jwkkjxiy76OBx5x99lxZRmrfSvjtMNqjt9vdyzz33hJ/R8i\nIiSWPKaZ2asEyeMVM2tLMHlhxjuyRz6Dir7affxk4else+cvEUYkItI8JJI8vg9MAo4Kp1HPAy5M\na1TNhBmcNbSQQgtqG5tzO/C/G/vCAvV/iMiBLZHRVrsIFmG61sxuBP7B3WekPbJmok0enDU4d/fx\np+1G89mHn0KF5r8SkQNXIqOtbgCuAOaE24/N7L/SHVhzMrizcWTnqt3Hz5Z8l82vPqD+DxE5YCXS\nbDUeON7d73f3+4GTCJaRPaCcdngO7XODBLItpy1P552Iv/toI1eJiGSmRGfVbR+33y4dgTR3rXLg\nnME1Cy/ObTucj7+ohIUfRhiViEg0EkkevwU+NbMHzewhYBrwm/SG1Twd2gG+2aNmWq8XunyPDW8/\nC5tWRxiViEjTS6TD/HFgFPAs8AzwDXdPaLyqmd1vZmvMbFZcWQczm2JmC8LX4rDczOxWM1toZjPM\nbHjcNReE5y8wswuS/ZKpdPKhRkmrYKTyjuxW/KXTBHa9fBtUV0YZlohIk6o3eZjZ8NgGdAXKw61b\n/B/2RjxI0EcSbxLwurv3A14PjwFOBvqF20TgzjCODsB1wEhgBHBdLOFEIS8bzh2URVY4sfDiwsN5\np3oAvPdYVCGJiDS5nAbe+0MD7zkJzG/l7m+bWe89ik8DxoT7DwFvAT8Pyx92dwc+MLP2ZtY1PHeK\nu28AMLMpBAnp8cY+P116tYNjexuvLQ2OXy45m8PmXcNB3T+GQ46KKiwRkSZTb/Jw93TNnNvF3WOT\nRH0JdAn3uwNfxJ1XHpbVV74XM5tIUGuhV69eKQx5b+P6wNx1zoqtRlVWHk90u4wfvX4D2SUHQ1Hn\ntH62iEjUklrDPNXCWkbKFpZy97vdvczdy0pKSlJ12zrlZMG5g4wcC8Jf0aoPrxWdAC/fCtVVjVwt\nItKyRZE8VofNUYSva8LyFUDPuPN6hGX1lUfuoDZw4iE1c0S+0el0vtgM/D2yFjURkSYRRfJ4AYiN\nmLoAeD6u/Pxw1NUoYFPYvPUKcIKZFYcd5SeEZc3CP/aCPuFTMLssm8e7XUbljNdg8dRoAxMRSaNE\npid5PZGyeq59HHgfOMzMys3s+wRrgRxvZguA46hZG2QysBhYCNwDXAYQdpRfD3wcbr+OdZ43B1kG\n5wyE/Oyg+Wptfjcmdz4XXr8LNq+NODoRkfSwoNuhjjfMCoDWwJsEI55i7TNFwMvuPqApAtxXZWVl\nPnVq0/3r/8MV8PS8muMfLvtPDm27E878BWQ3NKhNRKR5MLNp7l6WyLkN1Tx+SPA0+YDwNbY9D9y+\nv0FmmhHdYEDHmuO/dPshX69dAR9o/Q8RyTz1Jg93v8Xd+wD/7u593b1PuA11dyWPPZjBPx8OrcNK\nRkVuCX/t8j349EVY8km0wYmIpFgiHeZfhqsHYmbXmtmzSTxhfkApyocz4xrzPm4/hlltjoTX7oIt\n66MLTEQkxRJJHv/P3beY2TcJOrjvI5w6RPY2tAuUdqk5fqbrD9haZfDKbXr+Q0QyRiLJozp8/RZw\nt7u/SLAUrdTjjMOgKPwJbc1pxzMHfR//8nP48KloAxMRSZFEkscKM/sf4BxgspnlJ3jdAat1Lvzz\nwJrjWUUj+KTom/DJX2Hpp9EFJiKSIokkgbMJHso70d0rgA7Az9IaVQYY0BFGxc3A9b8HXUBFTgd4\n7U7Yqv4PEWnZElnPYxvBFCLfDIuqgAXpDCpT/NOh0KFVsL89u5C/dLuEXdu/glduh13VDV8sItKM\nJfKE+XUEU6ZfFRblAn9OZ1CZIj8Hzh1Y83TlwsLBvF98PKyar/4PEWnREmm2OgM4FfgKwN1XAm3T\nGVQm6dMejjm45vjFzuexNu8gmPYCLPssusBERPZDIsljZ/zU6WZWmN6QMs+JfeGg8KdWmZXPE90u\npZqssP9jY7TBiYjsg0SSx5PhaKv2ZnYx8Bpwb3rDyizB2h+QHbZfLW/Vj7c6ngJfb4ZX1f8hIi1P\nIh3mNwJPA88AhwG/cPdb0x1YpuneFo7vW3M8peTbrMg/GFbOhSl3QsWq+i8WEWlmEukw/527T3H3\nn7n7v7v7FDP7XVMEl2nG9IJeRcF+teXwRLdLqbIcWPB3+PO/w4t/gBVzoZ6ZjkVEmotEmq2Or6Ps\n5FQHciDIDpuvcsOf+pcFvXil01nhuw5LpsFz18OT18L89zSdiYg0W/UmDzO71MxmEizkNCNuWwLM\naLoQM0tJa/jWoTXHf+t0Ckv6fKv2SWuXwJQ/wcNXBk+lb9/atEGKiDSiocWg2gHFwG+BSXFvbWlO\nK/nVp6kXg0rGLod7p8OC8KfYPh8u77eKdnNehHnvQHVl7Qty8+HwMTD0JGjXZa/7iYikQjKLQdWb\nPFq65pw8ACq2wx8+hO1hy1TXNnDZkVBQuRlmvQYzXg1GY9Vi0LcMSk+GrocFi4iIiKRIs04eZnYY\nEL+8Xl/gF0B74GIgtvD31e4+ObzmKuD7BDP8/tjdX2nsc5p78gCYvx7u/yyoiQD06wAXDQ2G9lK1\nEz7/O0x/CTZ8sffFnftC6Xg4dCRkZTdp3CKSmZp18qj14WbZwApgJHAhsDUcGhx/zkDgcWAE0I3g\nOZP+7t7gwxEtIXkAfLwSnpxbc3zkQXDOwLhKhTt8MQumT4bldTyR3rYTHHEiDBwL+a2bJGYRyUzJ\nJI+cdAfTiHHAIndfZvU3wZwGPOHuO4AlZraQIJG830QxptVR3aBiB7y6ODie9iW0L4CTDglPMINe\nQ4JtfTl89hLMf7emX2TLOnjvUfjomSCBDD0RijpH8l1E5MAR9boc5xLUKmIuD0d03W9mxWFZdyC+\n3aY8LNuLmU00s6lmNnXt2rV1ndIsHdcbRnSrOX59KXywoo4TO/aAYy+GC26FEd+GVkU171VuDxLL\nI/8GL90Mqz5Pc9QiciCLrNnKzPKAlcAgd19tZl2AdQRzaF0PdHX3i8zsduADd/9zeN19wEvu/nRD\n928pzVYx1bvgwRkwL1zqw4AJQ2FgpwYuqtoJn78XNGltqCPbdDkUho2HvkepX0REGpVMs1WUNY+T\ngU/cfTWAu69292p33wXcQ9A0BUGfSM+463qEZRklOwu+Oxh6hPMVO/DnmfDFngOu4uXkBU1V5/03\nnPJz6Dmk9vurF8LLtwa1kemTYee2dIUvIgeYKGseTwCvuPsD4XFXd18V7v8bMNLdzzWzQcBj1HSY\nvw70y5QO8z1t2QG3T4UN24Pjwly4vAw6JdoXvm552C/yHuza4wn13FbQbxS07Qh5hVBQCHmtg472\n/Dbha2GQlDQMWOSA0+xHW4XTui8H+rr7prDsEaCU4B/dS4EfxiWTa4CLCFYxvNLdX2rsM1pq8gBY\n8xX8aSpsC//2d2oVJJDCvCRu8lUFzJoCM6ck/4R6VnaQRPILaxJK7DUvvqyOc/JaQ3bU4zBEZF80\n++TRFFpy8gBYWgH/8ylU7QqOexXBD4dDXrJdF1U7g6fWP3sJNq5MeZx1yi2oSShZOTW1GDN2r6to\nWeGuxdVyrPa5tc4P92PXxM6t6977ItU1rX36/ypd/y+2kFpkU9V2m+3fvATiSjT2rofB8H9KOoKW\nNFRX6tG7PfzLIHhkZvArtXwzPDYbzh8CWcn8P5aTB4PHwaCx8MVsWLcUdnwFO7aF21fBtjPc3/7V\n3s1dyarcHmxbm/0sNiKZKSc3/R+R9k+QfTakM5zaH54PR93OXgsvfA6n9d+Hf6RZVs3zIo2p2hmX\nYL6q2d8Zf1zH+zu2wc6vmvG/7EQkVZQ8mrlv9gzmwfrb8uD4vfLgIcIxBzd83X7JyQu2wuLGz92T\n7wpqHbHEUl1NUHfysFbuYXLxmiRT6zX+/YbOj9uvdf6+2NcLnYabhOp5r8HEn+qmm338bk2e/5v6\nA5u4KS/hj0vgxETuVdgh0Q/cZ0oeLcD4Q4ME8tma4PjFhcFMvKUHRRtXnSwr6DTPax1MnSIiGSnq\nJ8wlAVkWLCLVt31N2RNzYNHG6GISkQObkkcLkZMFFxwBncPnPao9eCL9S60TJSIRUPJoQVrnwg9K\noSh83mN7Fdw3HTZtjzYuETnwKHm0MMWt4KJSyA+f96jYAfd9VrOolIhIU1DyaIG6t4XvxT3vsWor\nPDyz5oFCEZF0U/JooQ7rCP98eM3xgg3w1Fw9YiEiTUPJowUr6won9q05/uRLeGVxdPGIyIFDyaOF\nG9cbRu6xkNT75VFFIyIHCiWPFs4MzjgMBnSsKXtuPsxZF11MIpL5lDwyQH0LSS3fFGlYIpLBlDwy\nRH4OXDQUOhQEx5W74P7PYJ0WDxSRNFDyyCBt8+EHw4KHCQG+qgweIty6M9q4RCTzKHlkmJLWcOER\nwXQmAOu+hgc+g50NLtorIpIcJY8MFFtIKjZz8/LN8Ngs2KVnQEQkRSJLHma21Mxmmtl0M5salnUw\nsylmtiB8LQ7LzcxuNbOFZjbDzIZHFXdLEVtIKmb2Ovjf+XqIUERSI+qax1h3L41bM3cS8Lq79wNe\nD48BTgb6hdtE4M4mj7QF+mZPOKZXzfH7K+Ct5dHFIyKZo7ktBnUaMCbcfwh4C/h5WP6wuzvwgZm1\nN7Ou7r4qkihbkD0Xkpq8ED5eCQe3q9m6FCa5LrqIHPCiTB4OvGpmDvyPu98NdIlLCF8CXcL97sAX\ncdeWh2W1koeZTSSomdCrVy+kZiGpLTthcUVQtnZbsE0Nf3r52dCrHfQqqkkosRFbIiJ1iTJ5fNPd\nV5hZZ2CKmc2Lf9PdPUwsCQsT0N0AZWVlat0PxRaSenpu0PexZ8f5jupgYsUFG2rKSloHSSSWUA5q\no9qJiNQfXY5PAAAPUklEQVSILHm4+4rwdY2ZPQeMAFbHmqPMrCsQNrawAugZd3mPsEwS1DoXzj8C\nKquhfAss21SzbanjOZC6aic942omvdpBoWonIgesSJKHmRUCWe6+Jdw/Afg18AJwAXBD+Pp8eMkL\nwOVm9gQwEtik/o59k5sNfdoHGwSjryq2xyWTzbBiS921k4Ubgy2mpHWQRA5W7UTkgBNVzaML8JyZ\nxWJ4zN1fNrOPgSfN7PvAMuDs8PzJwHhgIbANuLDpQ85MZsHqhMWtoPSgoGzP2snyTbC5gdrJNNVO\nRA445hk68L+srMynTp0adRgZYXftZHNNQlm5BaoT+NXp0x5O7w/d2qY/ThHZP2Y2Le7RiQY1t6G6\n0gzVqp2E499itZPlcc1dm3fsfe2SCrjlYxjTC47rEzSbiUjLp+Qh+6TOvpMdNc1cyzYFyWWXB9sb\ny2DGGjjrcDikONrYRWT/KXlISphBcUGwxWona76Cp+cFtQ8IJmm86xMY0Q2+daieJRFpyaKenkQy\nWOdCuGQ4nHkYFMQ1V320Em78IKiJZGiXm0jGU/KQtMoy+EYP+PdRMLikpnzLTnhkJjw0EzZtjy4+\nEdk3Sh7SJNoVBE+5nz8EivJqymevDWoh75dryniRlkTJQ5rUkM5BLWRkt5qy7dXw7Hy4a1rQTyIi\nzZ+ShzS5VrnBqKtLhkOnVjXlSzbBTR/ClCVQtSu6+ESkcUoeEplDiuEnI+HY3jXTmlQ7vLoYbv4o\nGO4rIs2TkodEKjcbTj4ErjgqmNokZvVX8Kep8Px82F4VXXwiUjclD2kWurWFy8vg1H6QG/5WOvBu\nOfzhA5i7LtLwRGQPSh7SbGQZHN0r6FDv36GmvGIH3P8ZPDoLttYxQaOIND0lD2l2OrSCH5TCeYNq\nz8o7fTX8/v1gjRE9XCgSLSUPaZbMYPhB8LNRwWvMtir4yxy4Zzqs/zq6+EQOdEoe0qwV5gU1kB+U\nBvNmxSzYEPSFvLUMqjWsV6TJKXlIi3BYR/jpSDi6J8QWK6zcBS8uhNumBqsfikjTUfKQFiM/B07t\nDz86Crq2qSlfsQVu/ThIJKu2wlc71Scikm6akl1anJ5FwXMhf1te8zT6Lg+asN5aFpyTbVCUD23z\ngtd2+Xsft82H1jlB/4qIJKfJk4eZ9QQeJljH3IG73f0WM/slcDGwNjz1anefHF5zFfB9oBr4sbu/\n0tRxS/OSnRU8mT6kMzw9FxZX1H6/2mHj9mBr8D5hkinKDyZs3L0fJppY0mmlJCNSSxQ1jyrgp+7+\niZm1BaaZ2ZTwvT+6+43xJ5vZQOBcYBDQDXjNzPq7e3WTRi3NUklr+OFwmLYKPl0dTO++eUcw2WIi\nEk0yOVk1tZZYkunYCg7vBJ1a7//3EGlpmjx5uPsqYFW4v8XM5gLdG7jkNOAJd98BLDGzhcAI4P20\nBystQpbBUd2CLWZndZBENu+AzTvr3t+SRJKp2lV3knlhQdD/MrgEjugMXQpVQ5EDQ6R9HmbWGxgG\nfAiMBi43s/OBqQS1k40EieWDuMvKaTjZiJCXHdQIGqsV7KgKEsqWMKFsituPTzY7Gkgyq7YG25Ql\nwSzBQzoHW4+2SiSSuSJLHmbWBngGuNLdN5vZncD1BP0g1wN/AC5K8p4TgYkAvXr1Sm3AkpHyc6Ak\nJ2j+akgsyWyOSyyLK+DzDbWnj1/3Nby5LNja58PgzjCkBHq3r5k5WCQTRJI8zCyXIHE86u7PArj7\n6rj37wH+LzxcAfSMu7xHWLYXd78buBugrKxMgzUlZepKMsccHMz4O289zFoDc9cHzWUxFTvg3S+C\nrU1e0LQ1uAQOLQ46/EVasihGWxlwHzDX3W+KK+8a9ocAnAHMCvdfAB4zs5sIOsz7AR81Ycgi9SrI\ngdIuwVZZHdREZq6FOWvh67ip5LfuhA9WBFurHBjYKaiVHNYhmJZepKWJouYxGvgeMNPMpodlVwPn\nmVkpQbPVUuCHAO4+28yeBOYQjNT6V420kuYoNxsGlQRb9S5YtDFIJLPWwNbKmvO+roJpXwZbXjYM\n6Bj0kQzoGCQjkZbAPEMfxS0rK/OpU6dGHYYIuxyWVsCstUEyqahnWHBOVjAV/eAwAbXOrfu8TLPx\n6yChdilUc17UzGyau5clcq7+nSOSZlkGfYuD7ZR+UL4lqI3MXAtrt9WcV7UL5qwLtqx5wTK9Q8JE\nUpQfXfypVlkNiypg/jqYv6HmZ5CfDX3aB9/7kGLo3laDDJoz1TxEIuIeLLc7cy3MXBMM962LAQe3\nCx5IPLhdMD1LXgvqJ3EPRqHNC5PFoo21R6jVpyAb+oSJ5NDi4HkaJZP0Us1DpAUwg4PaBNvxfWDd\ntrBpaw0s31xzngNLNwUbBH9Au7aBXkXBEOCD20GHgub1TMmOqiBJzFsP89fDhgae4M/Ngla5wfDn\neNurg+WHY0sQt8qBvnE1k4OUTCKlmodIM7Rpe00fyeKNQQJpSJvcIInEth5NXDuJ1aLmrw8SxpKK\nYOqX+nRuHUyzf1jHICHkZAWLey3aGDRpLdq4dzLZU+vc4NpDw2Sip/v3XzI1DyUPkWZu687gX99L\nN8GyTbDmq8aTSZZBtza1E0pximsn26uCRbnmh7WLigb+2OdnB3/kYwmjQ6uG7x1r6lq0MdgWbmx8\n/frC3JpaySHFQYJSMkmOkgdKHpK5vq6C5WEiWbYpaOLaXtX4dW3y4pJJUdB3kswzJu5Bv0ysKWrp\npmAkWX0OahM8xzKgY9C8lrMfI6ncYc22mmSyaCN8VdnwNW3zaieTTq2UTBqj5IGShxw4dnlQG1kW\nl1DWbGv8uljtpHdc7aT9HrWTbZVB7WLeevh8fTBFS30KsqFfBxjQKRhy3L6g/nP3V6yZLFYrWVwR\nxNqQovwwkbSHbm2DZNomVw9pxlPyQMlDDmzbKoMaSSyZfLEpsRmEi/KgV7tgQsklFUENp6G/EN3b\nhk1RHYLkE9VzGrscvtxaUytZXFH7Cf+GFOQESaRtXphQ8mr22+YH78XK8jN8iJGSB0oeIvH2tXay\np9Y50D/st+jfofk+f7IrbGJbGCaTJRsTn36/IblZcYmlrmQT91rQAhcQ01BdEaklK25Y8MhwQYNt\nlbWTyReb95563ghGbh3WMei76FnUMobHZllQK+reFo7pFSSTFVvCRFIRPOW/tTLohG+o32ZPlbuC\nYccNDT2Oybaa5FKQHYx+i9/yGznesywnq3klIyUPkQNU69zgwcPDOwXHsaafZZuCP47d2gR9GG3y\noo0zFbIsSHw9i2DMwTXluzxo3tq6A7bsDJLJlp01iaVW2c7EHm6MqXbYtCPYUsGoP8nsmWy6toEj\nu6bmc+uj5CEiQNiB3jbYDhRZFgzxLcyFLo2c6x7UzPZMKLHXPfcbWkBsXzjBPRO57+ASJQ8RkWbB\nLOjHKEhg8TAI1naJJZKd1TXbjup9O27oocs9NcUDokoeIiJpkJcdPAzZ2AORiareVXdyqausc2Fq\nPrMhSh4iIi1Adha0CucBaw40e76IiCRNyUNERJKm5CEiIklT8hARkaS1mORhZieZ2XwzW2hmk6KO\nR0TkQNYikoeZZQN/Ak4GBgLnmdnAaKMSETlwtYjkAYwAFrr7YnffCTwBnBZxTCIiB6yW8pxHd+CL\nuONyYOSeJ5nZRGBieLjVzObv4+d1Atbt47XNnb5by5XJ30/frXk4uPFTAi0leSTE3e8G7t7f+5jZ\n1ESnJW5p9N1arkz+fvpuLU9LabZaAfSMO+4RlomISARaSvL4GOhnZn3MLA84F3gh4phERA5YLaLZ\nyt2rzOxy4BUgG7jf3Wen8SP3u+mrGdN3a7ky+fvpu7UwGbsMrYiIpE9LabYSEZFmRMlDRESSpuQR\nJ5OnQDGznmb2ppnNMbPZZnZF1DGlmpllm9mnZvZ/UceSSmbW3syeNrN5ZjbXzL4RdUypZGb/Fv5O\nzjKzx82sIOqY9pWZ3W9ma8xsVlxZBzObYmYLwtfiKGNMFSWP0AEwBUoV8FN3HwiMAv41w74fwBXA\n3KiDSINbgJfdfQAwlAz6jmbWHfgxUObugwkGxJwbbVT75UHgpD3KJgGvu3s/4PXwuMVT8qiR0VOg\nuPsqd/8k3N9C8Aeoe7RRpY6Z9QC+BdwbdSypZGbtgH8E7gNw953uXhFtVCmXA7QysxygNbAy4nj2\nmbu/DWzYo/g04KFw/yHg9CYNKk2UPGrUNQVKxvxxjWdmvYFhwIfRRpJSNwP/AeyKOpAU6wOsBR4I\nm+TuNbMmWKG6abj7CuBGYDmwCtjk7q9GG1XKdXH3VeH+l0CXKINJFSWPA4yZtQGeAa50981Rx5MK\nZvZPwBp3nxZ1LGmQAwwH7nT3YcBXZEizB0DY/n8aQZLsBhSa2XejjSp9PHg2IiOej1DyqJHxU6CY\nWS5B4njU3Z+NOp4UGg2camZLCZobjzWzP0cbUsqUA+XuHqslPk2QTDLFccASd1/r7pXAs8A/RBxT\nqq02s64A4euaiONJCSWPGhk9BYqZGUG7+Vx3vynqeFLJ3a9y9x7u3pvgv9sb7p4R/3p19y+BL8zs\nsLBoHDAnwpBSbTkwysxah7+j48igAQGhF4ALwv0LgOcjjCVlWsT0JE0hgilQmtpo4HvATDObHpZd\n7e6TI4xJEvMj4NHwHzWLgQsjjidl3P1DM3sa+IRgROCntODpPMzscWAM0MnMyoHrgBuAJ83s+8Ay\n4OzoIkwdTU8iIiJJU7OViIgkTclDRESSpuQhIiJJU/IQEZGkKXmIiEjSlDxE0sjMrjSz1lHHIZJq\nGqorkkbhU+9l7r4u6lhEUkk1D5EUMbNCM3vRzD4L16a4jmC+pjfN7M3wnBPM7H0z+8TMngrnGsPM\nlprZf5vZTDP7yMwOjfK7iDRGyUMkdU4CVrr70HBtipsJphcf6+5jzawTcC1wnLsPB6YCP4m7fpO7\nDwFuD68VabaUPERSZyZwvJn9zsyOdvdNe7w/imChsffCKWIuAA6Oe//xuNeMWi1QMo/mthJJEXf/\n3MyGA+OB/zSz1/c4xYAp7n5efbeoZ1+k2VHNQyRFzKwbsM3d/wz8nmDq9C1A2/CUD4DRsf6MsI+k\nf9wtzol7fb9pohbZN6p5iKTOEOD3ZrYLqAQuJWh+etnMVob9HhOAx80sP7zmWuDzcL/YzGYAO4D6\naicizYKG6oo0AxrSKy2Nmq1ERCRpqnmIiEjSVPMQEZGkKXmIiEjSlDxERCRpSh4iIpI0JQ8REUna\n/weQ2pRl6ztibwAAAABJRU5ErkJggg==\n",
"text/plain": [
"<matplotlib.figure.Figure at 0x7f1a8c6594a8>"
]
},
"metadata": {},
"output_type": "display_data"
},
{
"data": {
"image/png": 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Hj4pxBvKb7q6y2DhpGn/2RubxL8yGOepdHZCxYaGDnMVLS0XMExPlTJ6cHLLI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\nSUVORK5CYII=\n",
"text/plain": [
"<matplotlib.figure.Figure at 0x7f1a8bdbecf8>"
]
},
"metadata": {},
"output_type": "display_data"
}
],
"source": [
"# plot training loss\n",
"plt.figure(2)\n",
"plt.plot(losses[0], c='#FF9359', lw=3, label='Original')\n",
"plt.plot(losses[1], c='#74BCFF', lw=3, label='Batch Normalization')\n",
"plt.xlabel('step');plt.ylabel('test loss');plt.ylim((0, 2000));plt.legend(loc='best')\n",
"\n",
"# evaluation\n",
"# set net to eval mode to freeze the parameters in batch normalization layers\n",
"[net.eval() for net in nets] # set eval mode to fix moving_mean and moving_var\n",
"preds = [net(test_x)[0] for net in nets]\n",
"plt.figure(3)\n",
"plt.plot(test_x.data.numpy(), preds[0].data.numpy(), c='#FF9359', lw=4, label='Original')\n",
"plt.plot(test_x.data.numpy(), preds[1].data.numpy(), c='#74BCFF', lw=4, label='Batch Normalization')\n",
"plt.scatter(test_x.data.numpy(), test_y.data.numpy(), c='r', s=50, alpha=0.2, label='train')\n",
"plt.legend(loc='best')\n",
"plt.show()"
]
},
{
"cell_type": "code",
"execution_count": null,
"metadata": {
"collapsed": true
},
"outputs": [],
"source": []
}
],
"metadata": {
"kernelspec": {
"display_name": "Python 3",
"language": "python",
"name": "python3"
},
"language_info": {
"codemirror_mode": {
"name": "ipython",
"version": 3
},
"file_extension": ".py",
"mimetype": "text/x-python",
"name": "python",
"nbconvert_exporter": "python",
"pygments_lexer": "ipython3",
"version": "3.5.2"
}
},
"nbformat": 4,
"nbformat_minor": 2
}
| Jupyter Notebook | 5 | Giselle-Liu/PyTorch-Tutorial | tutorial-contents-notebooks/504_batch_normalization.ipynb | [
"MIT"
] |
class_name Coin
extends Area2D
var taken = false
func _on_body_enter(body):
if not taken and body is Player:
($AnimationPlayer as AnimationPlayer).play("taken")
| GDScript | 4 | jonbonazza/godot-demo-projects | 2d/physics_platformer/coin/coin.gd | [
"MIT"
] |
/** Simple statically-typed programming language with functions and variables
* taken from "Language Implementation Patterns" book.
*/
grammar Cymbol;
file: (functionDecl | varDecl)+ ;
varDecl
: type ID ('=' expr)? ';'
;
type: 'float' | 'int' | 'void' ; // user-defined types
functionDecl
: type ID '(' formalParameters? ')' block // "void f(int x) {...}"
;
formalParameters
: formalParameter (',' formalParameter)*
;
formalParameter
: type ID
;
block: '{' stat* '}' ; // possibly empty statement block
stat: block
| varDecl
| 'if' expr 'then' stat ('else' stat)?
| 'return' expr? ';'
| expr '=' expr ';' // assignment
| expr ';' // func call
;
expr: ID '(' exprList? ')' // func call like f(), f(x), f(1,2)
| ID '[' expr ']' // array index like a[i], a[i][j]
| '-' expr // unary minus
| '!' expr // boolean not
| expr '*' expr
| expr ('+'|'-') expr
| expr '==' expr // equality comparison (lowest priority op)
| ID // variable reference
| INT
| '(' expr ')'
;
exprList : expr (',' expr)* ; // arg list
/*KEYWORDS:
FLOAT |
INTEGER |
VOID |
IF |
THEN |
RETURN; */
// PUNCUTATORS
ASSIGN: '=';
SEMICOLON: ';';
LPAREN: '(';
RPAREN: ')';
LBRACK: '[';
RBRACK: ']';
LBRACE: '{';
RBRACE: '}';
COMMA: ',';
BANG: '!';
ADD: '+';
SUB: '-';
MUL: '*';
EQUAL: '==';
// KEYWORDS:
FLOAT: 'float'; // keywords defined before ID so that it has higher priority, e.g., 'int' is labeled as INTEGER not ID
INTEGER: 'int';
VOID: 'void';
IF: 'if';
THEN: 'else';
RETURN: 'return';
ID : LETTER (LETTER | [0-9])* ;
fragment
LETTER : [a-zA-Z] ;
INT : [0-9]+ ;
WS : [ \t\n\r]+ -> skip ;
SL_COMMENT
: '//' .*? '\n' -> skip
;
| ANTLR | 4 | yingkitw/Project_CodeNet | tools/spt-generator/src/com/ibm/ai4code/parser/cymbol/Cymbol.g4 | [
"Apache-2.0"
] |
RwPlatformNestedProjectLoadComponentV2 {
#name : 'common/tests/platforms/gemstone32-5/Tests',
#condition : [
'gs3.[2-5]'
],
#packageNames : [
'Rowan-Tests-GemStone-32x'
],
#comment : 'Tests gemstone 3.2 thru 3.5'
} | STON | 2 | GemTalk/Rowan | rowan/components/common/tests/platforms/gemstone32-5/Tests.ston | [
"MIT"
] |
@{
# Version number of this module.
ModuleVersion = '2.5'
# ID used to uniquely identify this module
GUID = '369f0ee4-4cda-4ac3-a5c5-08e7bbc06e1a'
# Author of this module
Author = 'PowerShell'
# Company or vendor of this module
CompanyName = 'Microsoft Corporation'
# Copyright statement for this module
Copyright = 'Copyright (c) Microsoft Corporation.'
# Description of the functionality provided by this module
Description = 'NestedRequiredModule1 module'
# Modules to import as nested modules of the module specified in RootModule/ModuleToProcess
NestedModules = @('NestedRequiredModule1.psm1')
# Functions to export from this module
FunctionsToExport = @()
# Cmdlets to export from this module
CmdletsToExport = @()
# Variables to export from this module
VariablesToExport = @()
# Aliases to export from this module
AliasesToExport = @()
# Private data to pass to the module specified in RootModule/ModuleToProcess. This may also contain a PSData hashtable with additional module metadata used by PowerShell.
PrivateData = @{
PSData = @{
# Tags applied to this module. These help with module discovery in online galleries.
Tags = 'Tag1', 'Tag2', 'Tag-NestedRequiredModule1-2.5'
# A URL to the license for this module.
LicenseUri = 'http://nestedrequiredmodule1.com/license'
# A URL to the main website for this project.
ProjectUri = 'http://nestedrequiredmodule1.com/'
# A URL to an icon representing this module.
IconUri = 'http://nestedrequiredmodule1.com/icon'
# ReleaseNotes of this module
ReleaseNotes = 'NestedRequiredModule1 release notes'
} # End of PSData hashtable
} # End of PrivateData hashtable
}
| PowerShell | 3 | dahlia/PowerShell | test/powershell/engine/Module/assets/testmodulerunspace/NestedRequiredModule1/2.5/NestedRequiredModule1.psd1 | [
"MIT"
] |
/**
* @license
* Copyright Google LLC All Rights Reserved.
*
* Use of this source code is governed by an MIT-style license that can be
* found in the LICENSE file at https://angular.io/license
*/
import ts from 'typescript';
import {absoluteFrom as _abs} from '../../src/ngtsc/file_system';
import {runInEachFileSystem} from '../../src/ngtsc/file_system/testing';
import {KnownDeclaration} from '../../src/ngtsc/reflection';
import {FactoryMap, getTsHelperFnFromDeclaration, getTsHelperFnFromIdentifier, isRelativePath, stripExtension} from '../src/utils';
describe('FactoryMap', () => {
it('should return an existing value', () => {
const factoryFnSpy = jasmine.createSpy('factory');
const factoryMap = new FactoryMap<string, string>(factoryFnSpy, [['k1', 'v1'], ['k2', 'v2']]);
expect(factoryMap.get('k1')).toBe('v1');
expect(factoryMap.get('k2')).toBe('v2');
expect(factoryFnSpy).not.toHaveBeenCalled();
});
it('should not treat falsy values as missing', () => {
const factoryFnSpy = jasmine.createSpy('factory').and.returnValue('never gonna happen');
const factoryMap = new FactoryMap<string, any>(factoryFnSpy, [
['k1', ''],
['k2', 0],
['k3', false],
['k4', null],
['k5', undefined],
]);
expect(factoryMap.get('k1')).toBe('');
expect(factoryMap.get('k2')).toBe(0);
expect(factoryMap.get('k3')).toBe(false);
expect(factoryMap.get('k4')).toBe(null);
expect(factoryMap.get('k5')).toBe(undefined);
expect(factoryFnSpy).not.toHaveBeenCalled();
});
it('should create, store and return the value if it does not exist', () => {
const factoryFnSpy = jasmine.createSpy('factory').and.returnValues('v3', 'never gonna happen');
const factoryMap = new FactoryMap(factoryFnSpy, [['k1', 'v1'], ['k2', 'v2']]);
expect(factoryMap.get('k3')).toBe('v3');
expect(factoryFnSpy).toHaveBeenCalledTimes(1);
factoryFnSpy.calls.reset();
expect(factoryMap.get('k3')).toBe('v3');
expect(factoryFnSpy).not.toHaveBeenCalled();
});
});
describe('getTsHelperFnFromDeclaration()', () => {
const createFunctionDeclaration = (fnName?: string) => ts.createFunctionDeclaration(
undefined, undefined, undefined, fnName, undefined, [], undefined, undefined);
const createVariableDeclaration = (varName: string) =>
ts.createVariableDeclaration(varName, undefined, undefined);
it('should recognize the `__assign` helper as function declaration', () => {
const decl1 = createFunctionDeclaration('__assign');
const decl2 = createFunctionDeclaration('__assign$42');
expect(getTsHelperFnFromDeclaration(decl1)).toBe(KnownDeclaration.TsHelperAssign);
expect(getTsHelperFnFromDeclaration(decl2)).toBe(KnownDeclaration.TsHelperAssign);
});
it('should recognize the `__assign` helper as variable declaration', () => {
const decl1 = createVariableDeclaration('__assign');
const decl2 = createVariableDeclaration('__assign$42');
expect(getTsHelperFnFromDeclaration(decl1)).toBe(KnownDeclaration.TsHelperAssign);
expect(getTsHelperFnFromDeclaration(decl2)).toBe(KnownDeclaration.TsHelperAssign);
});
it('should recognize the `__spread` helper as function declaration', () => {
const decl1 = createFunctionDeclaration('__spread');
const decl2 = createFunctionDeclaration('__spread$42');
expect(getTsHelperFnFromDeclaration(decl1)).toBe(KnownDeclaration.TsHelperSpread);
expect(getTsHelperFnFromDeclaration(decl2)).toBe(KnownDeclaration.TsHelperSpread);
});
it('should recognize the `__spread` helper as variable declaration', () => {
const decl1 = createVariableDeclaration('__spread');
const decl2 = createVariableDeclaration('__spread$42');
expect(getTsHelperFnFromDeclaration(decl1)).toBe(KnownDeclaration.TsHelperSpread);
expect(getTsHelperFnFromDeclaration(decl2)).toBe(KnownDeclaration.TsHelperSpread);
});
it('should recognize the `__spreadArrays` helper as function declaration', () => {
const decl1 = createFunctionDeclaration('__spreadArrays');
const decl2 = createFunctionDeclaration('__spreadArrays$42');
expect(getTsHelperFnFromDeclaration(decl1)).toBe(KnownDeclaration.TsHelperSpreadArrays);
expect(getTsHelperFnFromDeclaration(decl2)).toBe(KnownDeclaration.TsHelperSpreadArrays);
});
it('should recognize the `__spreadArrays` helper as variable declaration', () => {
const decl1 = createVariableDeclaration('__spreadArrays');
const decl2 = createVariableDeclaration('__spreadArrays$42');
expect(getTsHelperFnFromDeclaration(decl1)).toBe(KnownDeclaration.TsHelperSpreadArrays);
expect(getTsHelperFnFromDeclaration(decl2)).toBe(KnownDeclaration.TsHelperSpreadArrays);
});
it('should recognize the `__spreadArray` helper as function declaration', () => {
const decl1 = createFunctionDeclaration('__spreadArray');
const decl2 = createFunctionDeclaration('__spreadArray$42');
expect(getTsHelperFnFromDeclaration(decl1)).toBe(KnownDeclaration.TsHelperSpreadArray);
expect(getTsHelperFnFromDeclaration(decl2)).toBe(KnownDeclaration.TsHelperSpreadArray);
});
it('should recognize the `__spreadArray` helper as variable declaration', () => {
const decl1 = createVariableDeclaration('__spreadArray');
const decl2 = createVariableDeclaration('__spreadArray$42');
expect(getTsHelperFnFromDeclaration(decl1)).toBe(KnownDeclaration.TsHelperSpreadArray);
expect(getTsHelperFnFromDeclaration(decl2)).toBe(KnownDeclaration.TsHelperSpreadArray);
});
it('should return null for unrecognized helpers', () => {
const decl1 = createFunctionDeclaration('__foo');
const decl2 = createVariableDeclaration('spread');
const decl3 = createFunctionDeclaration('spread$42');
expect(getTsHelperFnFromDeclaration(decl1)).toBe(null);
expect(getTsHelperFnFromDeclaration(decl2)).toBe(null);
expect(getTsHelperFnFromDeclaration(decl3)).toBe(null);
});
it('should return null for unnamed declarations', () => {
const unnamledDecl = createFunctionDeclaration(undefined);
expect(getTsHelperFnFromDeclaration(unnamledDecl)).toBe(null);
});
it('should return null for non-function/variable declarations', () => {
const classDecl =
ts.createClassDeclaration(undefined, undefined, '__assign', undefined, undefined, []);
expect(classDecl.name!.text).toBe('__assign');
expect(getTsHelperFnFromDeclaration(classDecl)).toBe(null);
});
});
describe('getTsHelperFnFromIdentifier()', () => {
it('should recognize the `__assign` helper', () => {
const id1 = ts.createIdentifier('__assign');
const id2 = ts.createIdentifier('__assign$42');
expect(getTsHelperFnFromIdentifier(id1)).toBe(KnownDeclaration.TsHelperAssign);
expect(getTsHelperFnFromIdentifier(id2)).toBe(KnownDeclaration.TsHelperAssign);
});
it('should recognize the `__spread` helper', () => {
const id1 = ts.createIdentifier('__spread');
const id2 = ts.createIdentifier('__spread$42');
expect(getTsHelperFnFromIdentifier(id1)).toBe(KnownDeclaration.TsHelperSpread);
expect(getTsHelperFnFromIdentifier(id2)).toBe(KnownDeclaration.TsHelperSpread);
});
it('should recognize the `__spreadArrays` helper', () => {
const id1 = ts.createIdentifier('__spreadArrays');
const id2 = ts.createIdentifier('__spreadArrays$42');
expect(getTsHelperFnFromIdentifier(id1)).toBe(KnownDeclaration.TsHelperSpreadArrays);
expect(getTsHelperFnFromIdentifier(id2)).toBe(KnownDeclaration.TsHelperSpreadArrays);
});
it('should recognize the `__spreadArray` helper', () => {
const id1 = ts.createIdentifier('__spreadArray');
const id2 = ts.createIdentifier('__spreadArray$42');
expect(getTsHelperFnFromIdentifier(id1)).toBe(KnownDeclaration.TsHelperSpreadArray);
expect(getTsHelperFnFromIdentifier(id2)).toBe(KnownDeclaration.TsHelperSpreadArray);
});
it('should return null for unrecognized helpers', () => {
const id1 = ts.createIdentifier('__foo');
const id2 = ts.createIdentifier('spread');
const id3 = ts.createIdentifier('spread$42');
expect(getTsHelperFnFromIdentifier(id1)).toBe(null);
expect(getTsHelperFnFromIdentifier(id2)).toBe(null);
expect(getTsHelperFnFromIdentifier(id3)).toBe(null);
});
});
runInEachFileSystem(() => {
describe('isRelativePath()', () => {
it('should return true for relative paths', () => {
expect(isRelativePath('.')).toBe(true);
expect(isRelativePath('..')).toBe(true);
expect(isRelativePath('./')).toBe(true);
expect(isRelativePath('.\\')).toBe(true);
expect(isRelativePath('../')).toBe(true);
expect(isRelativePath('..\\')).toBe(true);
expect(isRelativePath('./abc/xyz')).toBe(true);
expect(isRelativePath('.\\abc\\xyz')).toBe(true);
expect(isRelativePath('../abc/xyz')).toBe(true);
expect(isRelativePath('..\\abc\\xyz')).toBe(true);
});
it('should return true for absolute paths', () => {
expect(isRelativePath(_abs('/'))).toBe(true);
expect(isRelativePath(_abs('/abc/xyz'))).toBe(true);
});
it('should return false for other paths', () => {
expect(isRelativePath('abc')).toBe(false);
expect(isRelativePath('abc/xyz')).toBe(false);
expect(isRelativePath('.abc')).toBe(false);
expect(isRelativePath('..abc')).toBe(false);
expect(isRelativePath('@abc')).toBe(false);
expect(isRelativePath('.abc/xyz')).toBe(false);
expect(isRelativePath('..abc/xyz')).toBe(false);
expect(isRelativePath('@abc/xyz')).toBe(false);
});
});
});
describe('stripExtension()', () => {
it('should strip the extension from a file name', () => {
expect(stripExtension('foo.ts')).toBe('foo');
expect(stripExtension('/foo/bar.ts')).toBe('/foo/bar');
expect(stripExtension('/foo/bar.d.ts')).toBe('/foo/bar');
});
it('should do nothing if there is no extension in a file name', () => {
expect(stripExtension('foo')).toBe('foo');
expect(stripExtension('/foo/bar')).toBe('/foo/bar');
expect(stripExtension('/fo-o/b_ar')).toBe('/fo-o/b_ar');
});
});
| TypeScript | 5 | OakMolecule/angular | packages/compiler-cli/ngcc/test/utils_spec.ts | [
"MIT"
] |
#include <torch/csrc/jit/codegen/cuda/lower_misaligned_vectorization.h>
#include <torch/csrc/jit/codegen/cuda/index_compute.h>
#include <torch/csrc/jit/codegen/cuda/instrumentation.h>
#include <torch/csrc/jit/codegen/cuda/ir_iostream.h>
#include <torch/csrc/jit/codegen/cuda/ir_utils.h>
#include <torch/csrc/jit/codegen/cuda/kernel_ir.h>
#include <torch/csrc/jit/codegen/cuda/kernel_ir_builder.h>
#include <torch/csrc/jit/codegen/cuda/kernel_ir_printer.h>
#include <torch/csrc/jit/codegen/cuda/lower2device.h>
#include <torch/csrc/jit/codegen/cuda/lower_utils.h>
#include <torch/csrc/jit/codegen/cuda/predicate_compute.h>
namespace torch {
namespace jit {
namespace fuser {
namespace cuda {
namespace {
class MisalignedVectorizationModifier {
public:
void process(const std::vector<kir::Expr*>& exprs) {
FUSER_PERF_SCOPE(
"GpuLower::Lower::MisalignedVectorizationModifier::process");
// Run through loop nests
// Find for-loops with misaligned vectorization domains
for (auto* expr : exprs) {
handle(expr);
}
}
const std::unordered_map<kir::Expr*, kir::Expr*>& replacementMap() const {
return expr_replacement_map_;
}
private:
void handle(kir::Expr* expr) {
if (auto for_loop = dynamic_cast<kir::ForLoop*>(expr)) {
handle(for_loop);
} else if (auto ite = dynamic_cast<kir::IfThenElse*>(expr)) {
handle(ite);
}
}
void handle(kir::ForLoop* fl) {
for_loops_structure_.push_back(fl);
// Make copy of exprs because we replace them inplace in fl
const auto exprs_copy = fl->body().exprs();
if (containsAnyDirectChildMisalignedVectorize(fl)) {
auto new_fl = handleMisalignedVectorize(for_loops_structure_, fl);
expr_replacement_map_.insert({fl, new_fl});
} else {
for (auto expr : exprs_copy) {
handle(expr);
}
}
for_loops_structure_.pop_back();
}
void handle(kir::IfThenElse* ite) {
for (auto expr : ite->thenBody().exprs()) {
handle(expr);
}
for (auto expr : ite->elseBody().exprs()) {
handle(expr);
}
}
struct ReferenceTensors {
// Input TensorView to Vectorize Set operation
kir::TensorView* in_tv = nullptr;
// Output TensorView to Vectorize Set operation
kir::TensorView* out_tv = nullptr;
// TensorView in global memory
kir::TensorView* global_tv = nullptr;
// TensorView with vectorize IterDomain and not in global memory
kir::TensorView* vec_tv = nullptr;
};
ReferenceTensors getReferenceTensors(kir::Expr* vectorized_expr) {
TORCH_INTERNAL_ASSERT(vectorized_expr != nullptr);
TORCH_INTERNAL_ASSERT(
vectorized_expr->outputs().front()->isA<kir::TensorView>());
TORCH_INTERNAL_ASSERT(
vectorized_expr->inputs().front()->isA<kir::TensorView>());
auto in_tv = vectorized_expr->inputs().front()->as<kir::TensorView>();
auto out_tv = vectorized_expr->outputs().front()->as<kir::TensorView>();
const bool global_vectorize_write_op =
(out_tv->memoryType() == MemoryType::Global &&
in_tv->memoryType() == MemoryType::Local);
const bool global_vectorize_read_op =
(out_tv->memoryType() == MemoryType::Local &&
in_tv->memoryType() == MemoryType::Global);
TORCH_INTERNAL_ASSERT(
global_vectorize_write_op || global_vectorize_read_op,
"Unsupported vectorize memory configuration detected.");
// TensorView on global memory. This is the tensor that may have
// a non-aligned base address.
auto global_tv =
(out_tv->memoryType() == MemoryType::Global) ? out_tv : in_tv;
// TensorView with the misaligned vec iterDomain. It is the consumer
// of vectorized load or the producer of vectorized store. It is
// assumed that when the output TV is not on global memory, this
// expression is a vectorized load, so the output TV is vec_tv.
auto vec_tv = (out_tv->memoryType() != MemoryType::Global) ? out_tv : in_tv;
return {in_tv, out_tv, global_tv, vec_tv};
}
struct VectorizeData {
kir::Val* vector_size = nullptr;
kir::Val* shift = nullptr;
kir::Val* extent = nullptr;
kir::Val* remainder = nullptr;
kir::Val* extent_minus_remainder = nullptr;
kir::Val* last_root_domain_index = nullptr;
kir::Val* last_root_domain_index_shift = nullptr;
};
// Create constants for handling misaligned addresses
VectorizeData createVectorizeConstants(
const std::vector<kir::ForLoop*>& for_loop_structure,
const ReferenceTensors& tensors,
kir::IfThenElse* parent_scope_ite) {
kir::IrBuilder ir_builder(GpuLower::current()->kernel());
// Generate vectorize index
auto indices = (tensors.out_tv->memoryType() == MemoryType::Global)
? Index::getConsumerStridedIndices(
tensors.out_tv->fuserTv(), for_loop_structure)
: Index::getProducerStridedIndices(
tensors.in_tv->fuserTv(),
tensors.out_tv->fuserTv(),
for_loop_structure);
// >>>>>>>>>>>>>
// Number of elements in vectorize access
auto vector_size =
tensors.vec_tv->domain()->domain().back()->extent()->as<kir::Int>();
// Size of memory type for the elements
kir::Int* data_size_in_bytes =
ir_builder.create<kir::Int>(dataTypeSize(tensors.vec_tv->dtype()));
// The number of bytes in the vectorize access
auto vector_size_in_bytes =
ir_builder.mulExpr(vector_size, data_size_in_bytes);
auto index = ir_builder.create<kir::TensorIndex>(
tensors.global_tv->fuserTv(), indices);
auto address = createNamedScalarFromValue(
parent_scope_ite->thenBody(), index, "address", true);
// offset_size = (address % vector_size_bytes) / data_type_size_bytes
// shift_init = vector_size - offset_size
auto a = ir_builder.modExpr(address, vector_size_in_bytes);
auto b = ir_builder.divExpr(a, data_size_in_bytes);
auto c = ir_builder.subExpr(vector_size, b);
auto shift_init = createNamedScalarFromValue(
parent_scope_ite->thenBody(), c, "shift_val");
// shift = (shift_init == vector_size) ? 0 : shift_init
// The number of elements until the first aligned address
auto shift_pred = ir_builder.eqExpr(shift_init, vector_size);
auto shift_val =
ir_builder.whereExpr(shift_pred, ir_builder.zeroVal(), shift_init);
// >>>>>>>>>>>>>
auto shift = createNamedScalarFromValue(
parent_scope_ite->thenBody(), shift_val, "shift");
// >>>>>>>>>>>>>
// Get full extent for the inner-most, merged root domain
auto extent = getVectorizeExtent(tensors.in_tv, tensors.out_tv);
// remainder = (extent - shift) % vector_size
// The number of elements remaining not accessed by vectorized operations
auto remaining_extent = ir_builder.subExpr(extent, shift);
auto remainder_val = ir_builder.modExpr(remaining_extent, vector_size);
auto remainder = createNamedScalarFromValue(
parent_scope_ite->thenBody(), remainder_val, "remainder");
// (extent - remainder) is the upper-bound for the vectorize section
auto extent_remainder_val = ir_builder.subExpr(extent, remainder);
// >>>>>>>>>>>>>
auto extent_minus_remainder = createNamedScalarFromValue(
parent_scope_ite->thenBody(),
extent_remainder_val,
"extent_minus_remainder");
// >>>>>>>>>>>>>
auto last_root_domain_index = createNamedScalarFromValue(
parent_scope_ite->thenBody(), indices.back(), "last_root_domain_index");
// >>>>>>>>>>>>>
auto last_root_domain_index_shift =
ir_builder.addExpr(last_root_domain_index, shift);
return {
vector_size,
shift,
extent,
remainder,
extent_minus_remainder,
last_root_domain_index,
last_root_domain_index_shift};
}
// Vectorized : [shift - (extent-remainder))
// From the first to the last aligned address
kir::IfThenElse* createVectorizeSection(
const std::vector<kir::ForLoop*>& child_loops,
const VectorizeData& params) {
kir::IrBuilder ir_builder(GpuLower::current()->kernel());
auto vectorized_child_loops =
cloneForLoops(child_loops, params.vector_size, true, params.shift);
// Vectorize Range: [shift - (extent-remainder))
// (last_root_domain_index + shift) < (extent - remainder)
kir::Val* vectorize_cond = ir_builder.ltExpr(
params.last_root_domain_index_shift, params.extent_minus_remainder);
kir::Predicate* vectorize_pred =
ir_builder.create<kir::Predicate>(vectorize_cond->as<kir::Bool>());
kir::IfThenElse* vectorize_ite =
ir_builder.create<kir::IfThenElse>(vectorize_pred);
for (auto cloned_loop : vectorized_child_loops) {
vectorize_ite->thenBody().push_back(cloned_loop);
}
return vectorize_ite;
}
// Initial : [0 - shift)
// From the initial address until the first aligned address
kir::IfThenElse* createInitialSection(
const std::vector<kir::ForLoop*>& child_loops,
const VectorizeData& params) {
kir::IrBuilder ir_builder(GpuLower::current()->kernel());
auto pre_child_loops =
cloneForLoops(child_loops, params.shift, false, nullptr);
// Initial Range: [0 - shift)
// last_root_domain_index == 0
kir::Val* initial_cond =
ir_builder.eqExpr(params.last_root_domain_index, ir_builder.zeroVal());
kir::Predicate* initial_pred =
ir_builder.create<kir::Predicate>(initial_cond->as<kir::Bool>());
kir::IfThenElse* initial_ite =
ir_builder.create<kir::IfThenElse>(initial_pred);
for (auto cloned_loop : pre_child_loops) {
initial_ite->thenBody().push_back(cloned_loop);
}
return initial_ite;
}
// Remainder : [(extent-remainder) - extent)
// From the last aligned address until the end of the extent
kir::IfThenElse* createRemainderSection(
const std::vector<kir::ForLoop*>& child_loops,
const VectorizeData& params) {
kir::IrBuilder ir_builder(GpuLower::current()->kernel());
auto post_child_loops =
cloneForLoops(child_loops, params.remainder, false, params.shift);
// Remainder Range: [(extent-remainder) - extent)
// (extent - remainder) <= last_root_domain_index + shift < extent
kir::Val* lower_bound = ir_builder.geExpr(
params.last_root_domain_index_shift, params.extent_minus_remainder);
kir::Val* upper_bound =
ir_builder.ltExpr(params.last_root_domain_index_shift, params.extent);
kir::Val* remainder_cond = ir_builder.andExpr(lower_bound, upper_bound);
kir::Predicate* remainder_pred =
ir_builder.create<kir::Predicate>(remainder_cond->as<kir::Bool>());
kir::IfThenElse* remainder_ite =
ir_builder.create<kir::IfThenElse>(remainder_pred);
for (auto cloned_loop : post_child_loops) {
remainder_ite->thenBody().push_back(cloned_loop);
}
return remainder_ite;
}
kir::ForLoop* handleMisalignedVectorize(
std::vector<kir::ForLoop*> for_loop_structure,
const kir::ForLoop* parent_for_loop) {
kir::IrBuilder ir_builder(GpuLower::current()->kernel());
auto child_loops = findChildForLoops(parent_for_loop);
// Assumption: All vectorize operations have the same shift
auto vectorized_expr =
findFirstVectorizedSetOp(for_loop_structure, child_loops);
TORCH_INTERNAL_ASSERT(vectorized_expr != nullptr);
auto reference_tensors = getReferenceTensors(vectorized_expr);
// The parent_for_loop contains allocate, read, compute, write operations
const auto new_parent_for_loop =
ir_builder.create<kir::ForLoop>(parent_for_loop);
// Transfer all expressions except for-loops to new parent for-loop
// All expressions are placed at the beginning of the new for-loop
moveExprsExceptForLoops(parent_for_loop, new_parent_for_loop);
// Get the predicate for all but the last root domain
auto pred_except_last_root_domain = ir_builder.create<kir::Predicate>(
PredicateType::Misaligned, vectorized_expr, ir_builder.trueVal());
kir::IfThenElse* pred_ite =
ir_builder.create<kir::IfThenElse>(pred_except_last_root_domain);
new_parent_for_loop->body().push_back(pred_ite);
auto constants = createVectorizeConstants(
for_loop_structure, reference_tensors, pred_ite);
// The last root domain is divided into three sections.
// | Initial - N/A Shift | Vectorize - Shift | Remainder - Shift |
// Vectorized set operation with vectorize shift
auto vectorize_ite = createVectorizeSection(child_loops, constants);
pred_ite->thenBody().push_back(vectorize_ite);
// Standard set operation without vectorize shift
auto initial_ite = createInitialSection(child_loops, constants);
pred_ite->thenBody().push_back(initial_ite);
// Standard set operation with vectorize shift
auto remainder_ite = createRemainderSection(child_loops, constants);
pred_ite->thenBody().push_back(remainder_ite);
return new_parent_for_loop;
}
// Determine that the expression is UnaryOpType::Set AND
// the output TensorView domain is vectorized
bool isVectorizeSetOp(kir::ForLoop* fl, kir::Expr* expr) {
if (fl->iter_domain()->parallelType() !=
ParallelType::MisalignedVectorize) {
return false;
}
if (expr->isA<kir::UnaryOp>()) {
auto unaryOp = expr->as<kir::UnaryOp>();
if (unaryOp->out()->isA<kir::TensorView>()) {
auto out_tv = unaryOp->out()->as<kir::TensorView>();
return unaryOp->operation() == UnaryOpType::Set &&
out_tv->domain()->hasVectorize();
}
}
return false;
}
// Clone each for loop
// stop value - for (index = start; index < stop; index += step)
// vectorize flag - Do not generate for loop header
// shift value - Add shift to global indices generated within for loop
std::vector<kir::ForLoop*> cloneForLoops(
const std::vector<kir::ForLoop*>& for_loops,
kir::Val* stop,
bool vectorize,
kir::Val* vectorize_shift) {
kir::IrBuilder ir_builder(GpuLower::current()->kernel());
std::vector<kir::ForLoop*> cloned_for_loops;
for (auto fl : for_loops) {
auto first_expr = fl->body().exprs().front();
bool has_vectorize_op = isVectorizeSetOp(fl, first_expr);
// If the for loop contains a vectorize Set operation, then
// it should only contain a single expression
TORCH_INTERNAL_ASSERT(
!has_vectorize_op || fl->body().exprs().size() == 1);
const auto new_loop = ir_builder.create<kir::ForLoop>(
fl->iter_domain(),
fl->index(),
ir_builder.zeroVal(),
stop,
ir_builder.oneVal(),
vectorize && has_vectorize_op,
vectorize_shift);
for (auto expr : fl->body().exprs()) {
new_loop->body().push_back(expr);
}
cloned_for_loops.push_back(new_loop);
}
return cloned_for_loops;
}
// Add all expressions except for loops to new parent for loop
void moveExprsExceptForLoops(
const kir::ForLoop* for_loop,
kir::ForLoop* new_loop) {
std::vector<kir::ForLoop*> loops;
for (auto expr : for_loop->body().exprs()) {
if (!expr->isA<kir::ForLoop>()) {
new_loop->body().push_back(expr);
}
}
}
// Find any child for loops inside parent for loop
std::vector<kir::ForLoop*> findChildForLoops(const kir::ForLoop* for_loop) {
std::vector<kir::ForLoop*> loops;
for (auto expr : for_loop->body().exprs()) {
if (auto nested_for_loop = dynamic_cast<kir::ForLoop*>(expr)) {
loops.push_back(nested_for_loop);
}
}
return loops;
}
// Find the first vectorize set - either read or write
// Add child For-Loop to for_loop_structure
// Enable vectorize flag in child For-Loop
kir::Expr* findFirstVectorizedSetOp(
std::vector<kir::ForLoop*>& for_loop_structure,
const std::vector<kir::ForLoop*>& for_loops) {
for (auto fl : for_loops) {
auto first_expr = fl->body().exprs().front();
bool has_vectorize_op = isVectorizeSetOp(fl, first_expr);
if (has_vectorize_op) {
for_loop_structure.push_back(fl);
return first_expr;
}
}
return nullptr;
}
// Get full extent for the inner-most, merged root domain
kir::Val* getVectorizeExtent(
kir::TensorView* producer_tv,
kir::TensorView* consumer_tv) {
const auto gpu_lower = GpuLower::current();
kir::IrBuilder ir_builder(gpu_lower->kernel());
auto consumer_fuser_tv = consumer_tv->fuserTv();
auto producer_fuser_tv = producer_tv->fuserTv();
auto p2c =
PairwiseRootDomainMap(producer_fuser_tv, consumer_fuser_tv)
.mapProducerToConsumer(
producer_fuser_tv->domain(), consumer_fuser_tv->domain());
auto consumer_root_right_of_ca_domains = IterVisitor::getInputsTo(
{consumer_fuser_tv->domain()->domain().begin() +
consumer_fuser_tv->getComputeAtPosition(),
consumer_fuser_tv->domain()->domain().end()});
auto producer_root_right_of_ca_domains = IterVisitor::getInputsTo(
{producer_fuser_tv->domain()->domain().begin() +
producer_fuser_tv->getComputeAtPosition(),
producer_fuser_tv->domain()->domain().end()});
const auto& consumer_contig = consumer_fuser_tv->domain()->contiguity();
const auto& producer_contig = producer_fuser_tv->domain()->contiguity();
// No rfactor should exist in the producer TVs
TORCH_INTERNAL_ASSERT(
!producer_tv->domain()->hasRFactor(),
"Invalid producer tensor: ",
producer_fuser_tv);
auto producer_root_domain = producer_fuser_tv->getRootDomain();
// Calculate extent of merged root domains
kir::Val* extent = nullptr;
auto consumer_root_idx = int(consumer_fuser_tv->getRootDomain().size()) - 1;
for (int i = int(producer_root_domain.size()) - 1; i >= 0; --i) {
auto producer_root_id = producer_root_domain.at(i);
TORCH_INTERNAL_ASSERT(
!gpu_lower->trivialReductionInfo().isDerived(producer_root_id),
"No trivial reduciton axis should exist: ",
producer_root_id);
// If the producer ID is reduction or broadcast, it should be safe
// to ignore.
if (producer_root_id->isReduction()) {
continue;
} else if (producer_root_id->isBroadcast()) {
--consumer_root_idx;
continue;
}
// There must be a matching consumer root ID as the producer ID is
// not reduction and the expression between them is UnaryOpType::Set.
auto it = p2c.find(producer_root_id);
TORCH_INTERNAL_ASSERT(
it != p2c.end(), "No matching consumer root ID found");
auto consumer_root_id = it->second;
// Don't extend the vectorization domain beyond the CA position
if (std::find(
consumer_root_right_of_ca_domains.begin(),
consumer_root_right_of_ca_domains.end(),
consumer_root_id) == consumer_root_right_of_ca_domains.end() ||
std::find(
producer_root_right_of_ca_domains.begin(),
producer_root_right_of_ca_domains.end(),
producer_root_id) == producer_root_right_of_ca_domains.end()) {
break;
}
// We now know it's safe to extend the vectorization domain to these
// axes. It shouldn't matter whether producer or consumer is used.
auto consumer_extent = gpu_lower->lowerValue(consumer_root_id->extent());
if (extent == nullptr) {
extent = consumer_extent;
} else {
extent = ir_builder.mulExpr(extent, consumer_extent);
}
// If it's not contiguous, extending the vectorization domain
// further is not possible
if (!(producer_contig.at(i) && consumer_contig.at(consumer_root_idx))) {
break;
}
--consumer_root_idx;
}
TORCH_INTERNAL_ASSERT(extent != nullptr);
return extent;
}
kir::Val* createNamedScalarFromValue(
kir::Scope& body,
kir::Val* val,
const std::string& name,
bool address = false) {
kir::IrBuilder ir_builder(GpuLower::current()->kernel());
auto namedScalar = (address) ? ir_builder.addressExprNamedScalar(name, val)
: ir_builder.setExprNamedScalar(name, val);
TORCH_INTERNAL_ASSERT(namedScalar->definition() != nullptr);
auto alloc = ir_builder.create<kir::Allocate>(
namedScalar, MemoryType::Local, ir_builder.oneVal());
body.push_back(alloc);
body.push_back(namedScalar->definition());
return namedScalar;
}
private:
// We will track which loops in the incoming IR will be replaced and by what
std::unordered_map<kir::Expr*, kir::Expr*> expr_replacement_map_;
// A depth-first ordering of nested for loops
// It is used for indexing and predicate generation
std::vector<kir::ForLoop*> for_loops_structure_;
};
} // namespace
std::vector<kir::Expr*> processMisalignedVectorization(
Fusion* fusion,
const std::vector<kir::Expr*>& exprs) {
FUSER_PERF_SCOPE("GpuLower::Lower::processMisalignedVectorization");
MisalignedVectorizationModifier mvm;
mvm.process(exprs);
std::vector<kir::Expr*> mutated_exprs;
mutated_exprs.reserve(exprs.size());
for (auto expr : exprs) {
mutated_exprs.push_back(
ir_utils::applyReplacements(mvm.replacementMap(), expr));
}
return mutated_exprs;
}
bool containsAnyDirectChildMisalignedVectorize(const kir::ForLoop* fl) {
for (auto expr : fl->body().exprs()) {
if (expr->isA<kir::ForLoop>()) {
auto child_fl = expr->as<kir::ForLoop>();
if (child_fl->iter_domain()->parallelType() ==
ParallelType::MisalignedVectorize) {
return true;
}
}
}
return false;
}
} // namespace cuda
} // namespace fuser
} // namespace jit
} // namespace torch
| C++ | 4 | sanchitintel/pytorch | torch/csrc/jit/codegen/cuda/lower_misaligned_vectorization.cpp | [
"Intel"
] |
--TEST--
Using invalid self/parent types in closure
--FILE--
<?php
$fn1 = function(self $x) {};
try {
(new ReflectionFunction($fn1))->getParameters()[0]->getClass();
} catch (ReflectionException $e) {
echo $e->getMessage(), "\n";
}
$fn2 = function(parent $x) {};
try {
(new ReflectionFunction($fn2))->getParameters()[0]->getClass();
} catch (ReflectionException $e) {
echo $e->getMessage(), "\n";
}
class Test {}
$fn3 = (function(parent $x) {})->bindTo(new Test, Test::class);
try {
(new ReflectionFunction($fn3))->getParameters()[0]->getClass();
} catch (ReflectionException $e) {
echo $e->getMessage(), "\n";
}
?>
--EXPECTF--
Deprecated: Method ReflectionParameter::getClass() is deprecated in %s on line %d
Parameter uses "self" as type but function is not a class member
Deprecated: Method ReflectionParameter::getClass() is deprecated in %s on line %d
Parameter uses "parent" as type but function is not a class member
Deprecated: Method ReflectionParameter::getClass() is deprecated in %s on line %d
Parameter uses "parent" as type although class does not have a parent
| PHP | 3 | NathanFreeman/php-src | ext/reflection/tests/ReflectionParameter_getClass_self_parent_closure.phpt | [
"PHP-3.01"
] |
import strutils, algorithm
let
# this file was obtained from:
# https://www.unicode.org/Public/UCD/latest/ucd/UnicodeData.txt
filename = "tools/UnicodeData.txt"
data = readFile(filename).strip.splitLines()
const
# see the table here:
# https://www.unicode.org/reports/tr44/#GC_Values_Table
letters = ["Lu", "Ll", "Lt", "Lm", "Lo"]
spaces = ["Zs", "Zl", "Zp"]
type
Ranges = tuple[start, stop, diff: int]
Singlets = tuple[code, diff: int]
NonLetterRanges = tuple[start, stop: int]
var
toUpper = newSeq[Singlets]()
toLower = newSeq[Singlets]()
toTitle = newSeq[Singlets]()
alphas = newSeq[int]()
unispaces = newSeq[int]()
proc parseData(data: seq[string]) =
for line in data:
let
fields = line.split(';')
code = fields[0].parseHexInt()
category = fields[2]
uc = fields[12]
lc = fields[13]
tc = fields[14]
if category notin spaces and category notin letters:
continue
if uc.len > 0:
let diff = 500 + uc.parseHexInt() - code
toUpper.add (code, diff)
if lc.len > 0:
let diff = 500 + lc.parseHexInt() - code
toLower.add (code, diff)
if tc.len > 0 and tc != uc:
# if titlecase is different than uppercase
let diff = 500 + tc.parseHexInt() - code
if diff != 500:
toTitle.add (code, diff)
if category in spaces:
unispaces.add code
else:
alphas.add code
proc splitRanges(a: seq[Singlets], r: var seq[Ranges], s: var seq[Singlets]) =
## Splits `toLower`, `toUpper` and `toTitle` into separate sequences:
## - `r` contains continuous ranges with the same characteristics
## (their upper/lower version is the same distance away)
## - `s` contains single code points
var i, j: int
while i < a.len:
j = 1
let
startCode = a[i].code
startDiff = a[i].diff
while i + j <= a.len:
if i+j >= a.len or a[i+j].code != startCode+j or a[i+j].diff != startDiff:
if j == 1:
s.add (startCode, startDiff)
else:
r.add (startCode, a[i+j-1].code, startDiff)
i += j-1
break
else:
inc j
inc i
proc splitRanges(a: seq[int], r: var seq[NonLetterRanges], s: var seq[int]) =
## Splits `alphas` and `unispaces` into separate sequences:
## - `r` contains continuous ranges
## - `s` contains single code points
var i, j: int
while i < a.len:
j = 1
let startCode = a[i]
while i + j <= a.len:
if i+j >= a.len or a[i+j] != startCode+j:
if j == 1:
s.add startCode
else:
r.add (startCode, a[i+j-1])
i += j-1
break
else:
inc j
inc i
proc splitSpaces(a: seq[int], r: var seq[NonLetterRanges], s: var seq[int]) =
## Spaces are special because of the way how `isWhiteSpace` and `split`
## are implemented.
##
## All spaces are added both to `r` (ranges) and `s` (singlets).
var i, j: int
while i < a.len:
j = 1
let startCode = a[i]
while i + j <= a.len:
if i+j >= a.len or a[i+j] != startCode+j:
r.add (startCode, a[i+j-1])
i += j-1
break
else:
inc j
inc i
s = a
var
toupperRanges = newSeq[Ranges]()
toupperSinglets = newSeq[Singlets]()
tolowerRanges = newSeq[Ranges]()
tolowerSinglets = newSeq[Singlets]()
totitleRanges = newSeq[Ranges]()
totitleSinglets = newSeq[Singlets]()
spaceRanges = newSeq[NonLetterRanges]()
unicodeSpaces = newSeq[int]()
alphaRanges = newSeq[NonLetterRanges]()
alphaSinglets = newSeq[int]()
parseData(data)
splitRanges(toLower, tolowerRanges, tolowerSinglets)
splitRanges(toUpper, toUpperRanges, toUpperSinglets)
splitRanges(toTitle, toTitleRanges, toTitleSinglets)
splitRanges(alphas, alphaRanges, alphaSinglets)
# manually add "special" spaces
for i in 9 .. 13:
unispaces.add i
unispaces.add 0x85
unispaces.sort()
splitSpaces(unispaces, spaceRanges, unicodeSpaces)
var output: string
proc createHeader(output: var string) =
output.add "# This file was created from a script.\n\n"
output.add "const\n"
proc `$`(r: Ranges): string =
let
start = "0x" & toHex(r.start, 5)
stop = "0x" & toHex(r.stop, 5)
result = "$#, $#, $#,\n" % [start, stop, $r.diff]
proc `$`(r: Singlets): string =
let code = "0x" & toHex(r.code, 5)
result = "$#, $#,\n" % [code, $r.diff]
proc `$`(r: NonLetterRanges): string =
let
start = "0x" & toHex(r.start, 5)
stop = "0x" & toHex(r.stop, 5)
result = "$#, $#,\n" % [start, stop]
proc outputSeq(s: seq[Ranges|Singlets|NonLetterRanges], name: string,
output: var string) =
output.add " $# = [\n" % name
for r in s:
output.add " " & $r
output.add " ]\n\n"
proc outputSeq(s: seq[int], name: string, output: var string) =
output.add " $# = [\n" % name
for i in s:
output.add " 0x$#,\n" % toHex(i, 5)
output.add " ]\n\n"
proc outputSpaces(s: seq[int], name: string, output: var string) =
output.add " $# = [\n" % name
for i in s:
output.add " Rune 0x$#,\n" % toHex(i, 5)
output.add " ]\n\n"
output.createHeader()
outputSeq(tolowerRanges, "toLowerRanges", output)
outputSeq(tolowerSinglets, "toLowerSinglets", output)
outputSeq(toupperRanges, "toUpperRanges", output)
outputSeq(toupperSinglets, "toUpperSinglets", output)
outputSeq(totitleSinglets, "toTitleSinglets", output)
outputSeq(alphaRanges, "alphaRanges", output)
outputSeq(alphaSinglets, "alphaSinglets", output)
outputSeq(spaceRanges, "spaceRanges", output)
outputSpaces(unispaces, "unicodeSpaces", output) # array of runes
let outfile = "lib/pure/includes/unicode_ranges.nim"
outfile.writeFile(output)
| Nimrod | 5 | JohnAD/Nim | tools/unicode_parsedata.nim | [
"MIT"
] |
%%%
%%% Authors:
%%% Gert Smolka <smolka@ps.uni-sb.de>
%%% Christian Schulte <schulte@ps.uni-sb.de>
%%%
%%% Copyright:
%%% Gert Smolka, 1998
%%% Christian Schulte, 1998
%%%
%%% Last change:
%%% $Date$ by $Author$
%%% $Revision$
%%%
%%% This file is part of Mozart, an implementation
%%% of Oz 3
%%% http://www.mozart-oz.org
%%%
%%% See the file "LICENSE" or
%%% http://www.mozart-oz.org/LICENSE.html
%%% for information on usage and redistribution
%%% of this file, and for a DISCLAIMER OF ALL
%%% WARRANTIES.
%%%
functor
import FD Search Space
export Return
prepare
TrainSol = [r(a:1895 b:1904 n:1918 x:1)
r(a:1896 b:1905 n:1920 x:1)]
define
fun {Year}
{FD.int 1700#1999}
end
fun {Day}
{FD.int 1#365}
end
fun {DS Y}
[A B C D] = {FD.list 4 0#9}
Q = {FD.int 0#36}
in
1000*A + 100*B +10*C + D =: Y
Q =: A+B+C+D
Q
end
fun {MakeTrain Mode}
Third = case Mode
of reified then
fun {$ X N}
proc {$ _}
C = {Year} % C's year of birth
Y = {Day} % C's day of birth
Q = {DS C}
in
{FD.disj
{FD.conj Y<:X Q=:N-C}
{FD.conj Y>:X Q=:N-C-1}
1}
{FD.distribute split [Y C]}
end
end
[] combinator then
fun {$ X N}
proc {$ _}
C = {Year} % C's year of birth
Y = {Day} % C's day of birth
Q = {DS C}
in
thread
or Y<:X Q=:N-C [] Y>:X Q=:N-C-1 end
end
{FD.distribute split [Y C]}
end
end
end
proc {NoThird X N}
thread
{Search.base.one {Third X N} nil}
end
end
in
proc {$ S}
N = {Year} % year of train ride
X = {Day} % day of train ride
A = {Year} % A's year of birth
B = {Year} % B's year of birth
in
S=r(a:A b:B n:N x:X)
N >=: 1825 % no trains before that year
{DS A} =: N-A
{DS B} =: N-B
A <: B % wlog
{NoThird X N}
{FD.distribute split [A B X]}
end
end
fun {Trace P}
S={Space.new P}
D={Dictionary.new}
proc {Inc F}
{Dictionary.put D F {Dictionary.condGet D F 0}+1}
end
proc {Explore S}
case {Space.ask S}
of failed then {Inc failed}
[] succeeded then {Inc succeeded}
[] alternatives(N) then C={Space.clone S} in
{Inc alternatives}
{Space.commit S 1} {Space.commit C 2#N}
{Explore S} {Explore C}
end
end
in
{Explore S}
{Dictionary.toRecord stat D}
end
Return =
fd([train([reified(equal(fun {$}
{Search.base.all {MakeTrain reified}}
end
TrainSol)
keys: [fd space])
combinator(equal(fun {$}
{Search.base.all {MakeTrain combinator}}
end
TrainSol)
keys: [fd space])
compare(entailed(proc {$}
S1={Trace {MakeTrain reified}}
S2={Trace {MakeTrain combinator}}
in
S1=S2
S1=stat(alternatives:3884
failed:3883
succeeded:2)
end)
keys: [fd space])])])
end
| Oz | 5 | Ahzed11/mozart2 | platform-test/fd/train.oz | [
"BSD-2-Clause"
] |
xquery version "1.0-ml";
import module namespace match-options = "http://marklogic.com/smart-mastering/options-impl"
at "/com.marklogic.smart-mastering/matcher-impl/options-impl.xqy";
import module namespace test = "http://marklogic.com/test" at "/test/test-helper.xqy";
declare option xdmp:mapping "false";
(: This set of options specifically tests legacy options with zip-match algorithm to cover the sccenario for DHFPROD-7954 :)
let $options := xdmp:unquote('{
"dataFormat" : "json",
"propertyDefs" : {
"property" : [ {
"localname" : "LastName",
"name" : "LastName"
}, {
"localname" : "SSN",
"name" : "SSN"
}, {
"localname" : "FirstName",
"name" : "FirstName"
}, {
"localname" : "DateOfBirth",
"name" : "DateOfBirth"
}, {
"localname" : "ZipCode",
"name" : "ZipCode"
}, {
"localname" : [ "Address" ],
"name" : [ "Address" ]
} ]
},
"algorithms" : {
"algorithm" : [ {
"name" : "double-metaphone",
"function" : "double-metaphone",
"namespace" : "http://marklogic.com/smart-mastering/algorithms",
"at" : "/com.marklogic.smart-mastering/algorithms/double-metaphone.xqy"
}, {
"name" : "thesaurus",
"function" : "thesaurus",
"namespace" : "http://marklogic.com/smart-mastering/algorithms",
"at" : "/com.marklogic.smart-mastering/algorithms/thesaurus.xqy"
}, {
"name" : "zip-match",
"function" : "zip-match",
"namespace" : "http://marklogic.com/smart-mastering/algorithms",
"at" : "/com.marklogic.smart-mastering/algorithms/zip.xqy"
}, {
"name" : "standard-reduction",
"function" : "standard-reduction"
}, {
"name" : "dob-match",
"function" : "dob-match",
"namespace" : "http://marklogic.com/smart-mastering/algorithms",
"at" : "/custom-modules/custom/dob-match.xqy"
} ]
},
"collections" : {
"content" : [ ]
},
"scoring" : {
"add" : [ {
"propertyName" : "LastName",
"weight" : "10"
}, {
"propertyName" : "SSN",
"weight" : "20"
} ],
"expand" : [ {
"propertyName" : "FirstName",
"algorithmRef" : "double-metaphone",
"weight" : "10",
"dictionary" : "/dictionary/first-names.xml",
"distanceThreshold" : "100"
}, {
"propertyName" : "FirstName",
"algorithmRef" : "thesaurus",
"weight" : "10",
"thesaurus" : "/thesaurus/nicknames.xml"
}, {
"propertyName" : "DateOfBirth",
"algorithmRef" : "dob-match",
"weight" : "10"
}, {
"propertyName" : "ZipCode",
"algorithmRef" : "zip-match",
"zip" : [ {
"origin" : 5,
"weight" : "10"
}, {
"origin" : 9,
"weight" : "10"
} ]
} ],
"reduce" : [ {
"allMatch" : {
"property" : [ "Address" ]
},
"algorithmRef" : "standard-reduction",
"weight" : "5"
} ]
},
"actions" : {
"action" : [ {
"name" : "customMatch",
"at" : "/custom-modules/custom/custom-match-action.sjs",
"function" : "customMatch"
} ]
},
"thresholds" : {
"threshold" : [ {
"above" : "19",
"label" : "Match",
"action" : "merge"
}, {
"above" : "9",
"label" : "Likely Match",
"action" : "notify"
}, {
"above" : "4",
"label" : "Slight Match",
"action" : "customMatch"
} ]
},
"tuning" : {
"maxScan" : 200
}
}')/object-node()
let $compiled-options := match-options:compile-match-options($options, ())
return (
for $query in ($compiled-options => map:get("queries"))
return
test:assert-true(fn:exists($query => map:get("weight")), "Every compiled query should have a weight associated with it. " || xdmp:to-json-string($query))
) | XQuery | 5 | iveyMarklogic/marklogic-data-hub | marklogic-data-hub/src/test/ml-modules/root/test/suites/data-hub/5/smart-mastering/matching/compiled-options.xqy | [
"Apache-2.0"
] |
@-moz-keyframes name {} | CSS | 1 | kitsonk/swc | css/parser/tests/fixture/esbuild/misc/D6tjKw383eOL-bbWEm1-4w/input.css | [
"Apache-2.0",
"MIT"
] |
$$ MODE TUSCRIPT
LOOP
ASK "Enter a string": str=""
ASK "Enter an integer": int=""
IF (int=='digits') THEN
PRINT "int=",int," str=",str
EXIT
ELSE
PRINT/ERROR int," is not an integer"
CYCLE
ENDIF
ENDLOOP
| Turing | 2 | LaudateCorpus1/RosettaCodeData | Task/User-input-Text/TUSCRIPT/user-input-text.tu | [
"Info-ZIP"
] |
import Link from 'next/link'
export default function Page() {
return (
<>
<h1>Onclick prevent default</h1>
<Link
href="/"
onClick={(e) => {
e.preventDefault()
console.log('link to home clicked but prevented')
}}
>
Home
</Link>
</>
)
}
| JavaScript | 4 | hanneslund/next.js | test/e2e/new-link-behavior/app/pages/onclick-prevent-default.js | [
"MIT"
] |
coq
-no-install
-custom "cd coq; $(MAKE) html" "" html
| Coq | 2 | yoshihiro503/ocaml_util | Make.coq | [
"MIT"
] |
// Copyright 2014 The Flutter Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
import 'package:flutter/material.dart';
const Color kShrinePink50 = Color(0xFFFEEAE6);
const Color kShrinePink100 = Color(0xFFFEDBD0);
const Color kShrinePink300 = Color(0xFFFBB8AC);
const Color kShrinePink400 = Color(0xFFEAA4A4);
const Color kShrineBrown900 = Color(0xFF442B2D);
const Color kShrineBrown600 = Color(0xFF7D4F52);
const Color kShrineErrorRed = Color(0xFFC5032B);
const Color kShrineSurfaceWhite = Color(0xFFFFFBFA);
const Color kShrineBackgroundWhite = Colors.white;
| Dart | 3 | Mayb3Nots/flutter | dev/integration_tests/flutter_gallery/lib/demo/shrine/colors.dart | [
"BSD-3-Clause"
] |
# ltmain.sh - Provide generalized library-building support services.
# NOTE: Changing this file will not affect anything until you rerun ltconfig.
#
# Copyright (C) 1996-1998 Free Software Foundation, Inc.
# Gordon Matzigkeit <gord@gnu.ai.mit.edu>, 1996
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 2 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful, but
# WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
# General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software
# Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
#
# As a special exception to the GNU General Public License, if you
# distribute this file as part of a program that contains a
# configuration script generated by Autoconf, you may include it under
# the same distribution terms that you use for the rest of that program.
# The name of this program.
progname=`$echo "$0" | sed 's%^.*/%%'`
modename="$progname"
# Constants.
PROGRAM=ltmain.sh
PACKAGE=libtool
VERSION=1.2
default_mode=
help="Try \`$progname --help' for more information."
magic="%%%MAGIC variable%%%"
mkdir="mkdir"
mv="mv -f"
rm="rm -f"
# Sed substitution that helps us do robust quoting. It backslashifies
# metacharacters that are still active within double-quoted strings.
Xsed='sed -e s/^X//'
sed_quote_subst='s/\([\\`\\"$\\\\]\)/\\\1/g'
# NLS nuisances.
# Only set LANG and LC_ALL to C if already set.
# These must not be set unconditionally because not all systems understand
# e.g. LANG=C (notably SCO).
if test "${LC_ALL+set}" = set; then LC_ALL=C; export LC_ALL; fi
if test "${LANG+set}" = set; then LANG=C; export LANG; fi
if test "$LTCONFIG_VERSION" != "$VERSION"; then
echo "$modename: ltconfig version \`$LTCONFIG_VERSION' does not match $PROGRAM version \`$VERSION'" 1>&2
echo "Fatal configuration error. See the $PACKAGE docs for more information." 1>&2
exit 1
fi
if test "$build_libtool_libs" != yes && test "$build_old_libs" != yes; then
echo "$modename: not configured to build any kind of library" 1>&2
echo "Fatal configuration error. See the $PACKAGE docs for more information." 1>&2
exit 1
fi
# Global variables.
mode=$default_mode
nonopt=
prev=
prevopt=
run=
show="$echo"
show_help=
execute_dlfiles=
# Parse our command line options once, thoroughly.
while test $# -gt 0
do
arg="$1"
shift
case "$arg" in
-*=*) optarg=`$echo "X$arg" | $Xsed -e 's/[-_a-zA-Z0-9]*=//'` ;;
*) optarg= ;;
esac
# If the previous option needs an argument, assign it.
if test -n "$prev"; then
case "$prev" in
execute_dlfiles)
eval "$prev=\"\$$prev \$arg\""
;;
*)
eval "$prev=\$arg"
;;
esac
prev=
prevopt=
continue
fi
# Have we seen a non-optional argument yet?
case "$arg" in
--help)
show_help=yes
;;
--version)
echo "$PROGRAM (GNU $PACKAGE) $VERSION"
exit 0
;;
--dry-run | -n)
run=:
;;
--features)
echo "host: $host"
if test "$build_libtool_libs" = yes; then
echo "enable shared libraries"
else
echo "disable shared libraries"
fi
if test "$build_old_libs" = yes; then
echo "enable static libraries"
else
echo "disable static libraries"
fi
exit 0
;;
--finish) mode="finish" ;;
--mode) prevopt="--mode" prev=mode ;;
--mode=*) mode="$optarg" ;;
--quiet | --silent)
show=:
;;
-dlopen)
prevopt="-dlopen"
prev=execute_dlfiles
;;
-*)
$echo "$modename: unrecognized option \`$arg'" 1>&2
$echo "$help" 1>&2
exit 1
;;
*)
nonopt="$arg"
break
;;
esac
done
if test -n "$prevopt"; then
$echo "$modename: option \`$prevopt' requires an argument" 1>&2
$echo "$help" 1>&2
exit 1
fi
if test -z "$show_help"; then
# Infer the operation mode.
if test -z "$mode"; then
case "$nonopt" in
*cc | *++ | gcc* | *-gcc*)
mode=link
for arg
do
case "$arg" in
-c)
mode=compile
break
;;
esac
done
;;
*db | *dbx)
mode=execute
;;
*install*|cp|mv)
mode=install
;;
*rm)
mode=uninstall
;;
*)
# If we have no mode, but dlfiles were specified, then do execute mode.
test -n "$execute_dlfiles" && mode=execute
# Just use the default operation mode.
if test -z "$mode"; then
if test -n "$nonopt"; then
$echo "$modename: warning: cannot infer operation mode from \`$nonopt'" 1>&2
else
$echo "$modename: warning: cannot infer operation mode without MODE-ARGS" 1>&2
fi
fi
;;
esac
fi
# Only execute mode is allowed to have -dlopen flags.
if test -n "$execute_dlfiles" && test "$mode" != execute; then
$echo "$modename: unrecognized option \`-dlopen'" 1>&2
$echo "$help" 1>&2
exit 1
fi
# Change the help message to a mode-specific one.
generic_help="$help"
help="Try \`$modename --help --mode=$mode' for more information."
# These modes are in order of execution frequency so that they run quickly.
case "$mode" in
# libtool compile mode
compile)
modename="$modename: compile"
# Get the compilation command and the source file.
base_compile=
lastarg=
srcfile="$nonopt"
suppress_output=
for arg
do
# Accept any command-line options.
case "$arg" in
-o)
$echo "$modename: you cannot specify the output filename with \`-o'" 1>&2
$echo "$help" 1>&2
exit 1
;;
-static)
build_libtool_libs=no
build_old_libs=yes
continue
;;
esac
# Accept the current argument as the source file.
lastarg="$srcfile"
srcfile="$arg"
# Aesthetically quote the previous argument.
# Backslashify any backslashes, double quotes, and dollar signs.
# These are the only characters that are still specially
# interpreted inside of double-quoted scrings.
lastarg=`$echo "X$lastarg" | $Xsed -e "$sed_quote_subst"`
# Double-quote args containing other shell metacharacters.
# Many Bourne shells cannot handle close brackets correctly in scan
# sets, so we specify it separately.
case "$lastarg" in
*[\[\~\#\^\&\*\(\)\{\}\|\;\<\>\?\'\ \ ]*|*]*)
lastarg="\"$lastarg\""
;;
esac
# Add the previous argument to base_compile.
if test -z "$base_compile"; then
base_compile="$lastarg"
else
base_compile="$base_compile $lastarg"
fi
done
# Get the name of the library object.
libobj=`$echo "X$srcfile" | $Xsed -e 's%^.*/%%'`
# Recognize several different file suffixes.
xform='[cCFSfms]'
case "$libobj" in
*.ada) xform=ada ;;
*.adb) xform=adb ;;
*.ads) xform=ads ;;
*.asm) xform=asm ;;
*.c++) xform=c++ ;;
*.cc) xform=cc ;;
*.cpp) xform=cpp ;;
*.cxx) xform=cxx ;;
*.f90) xform=f90 ;;
*.for) xform=for ;;
esac
libobj=`$echo "X$libobj" | $Xsed -e "s/\.$xform$/.lo/"`
case "$libobj" in
*.lo) obj=`$echo "X$libobj" | $Xsed -e 's/\.lo$/.o/'` ;;
*)
$echo "$modename: cannot determine name of library object from \`$srcfile'" 1>&2
exit 1
;;
esac
if test -z "$base_compile"; then
$echo "$modename: you must specify a compilation command" 1>&2
$echo "$help" 1>&2
exit 1
fi
# Delete any leftover library objects.
if test "$build_old_libs" = yes; then
$run $rm $obj $libobj
trap "$run $rm $obj $libobj; exit 1" 1 2 15
else
$run $rm $libobj
trap "$run $rm $libobj; exit 1" 1 2 15
fi
# Only build a PIC object if we are building libtool libraries.
if test "$build_libtool_libs" = yes; then
# Without this assignment, base_compile gets emptied.
fbsd_hideous_sh_bug=$base_compile
# All platforms use -DPIC, to notify preprocessed assembler code.
$show "$base_compile$pic_flag -DPIC $srcfile"
if $run eval "$base_compile\$pic_flag -DPIC \$srcfile"; then :
else
test -n "$obj" && $run $rm $obj
exit 1
fi
# If we have no pic_flag, then copy the object into place and finish.
if test -z "$pic_flag"; then
$show "$LN_S $obj $libobj"
$run $LN_S $obj $libobj
exit $?
fi
# Just move the object, then go on to compile the next one
$show "$mv $obj $libobj"
$run $mv $obj $libobj || exit 1
# Allow error messages only from the first compilation.
suppress_output=' >/dev/null 2>&1'
fi
# Only build a position-dependent object if we build old libraries.
if test "$build_old_libs" = yes; then
# Suppress compiler output if we already did a PIC compilation.
$show "$base_compile $srcfile$suppress_output"
if $run eval "$base_compile \$srcfile$suppress_output"; then :
else
$run $rm $obj $libobj
exit 1
fi
fi
# Create an invalid libtool object if no PIC, so that we do not
# accidentally link it into a program.
if test "$build_libtool_libs" != yes; then
$show "echo timestamp > $libobj"
$run eval "echo timestamp > \$libobj" || exit $?
fi
exit 0
;;
# libtool link mode
link)
modename="$modename: link"
CC="$nonopt"
allow_undefined=yes
compile_command="$CC"
finalize_command="$CC"
compile_shlibpath=
finalize_shlibpath=
deplibs=
dlfiles=
dlprefiles=
export_dynamic=no
hardcode_libdirs=
libobjs=
link_against_libtool_libs=
ltlibs=
objs=
prev=
prevarg=
release=
rpath=
perm_rpath=
temp_rpath=
vinfo=
# We need to know -static, to get the right output filenames.
for arg
do
case "$arg" in
-all-static | -static)
if test "X$arg" = "X-all-static" && test "$build_libtool_libs" = yes && test -z "$link_static_flag"; then
$echo "$modename: warning: complete static linking is impossible in this configuration" 1>&2
fi
build_libtool_libs=no
build_old_libs=yes
break
;;
esac
done
# See if our shared archives depend on static archives.
test -n "$old_archive_from_new_cmds" && build_old_libs=yes
# Go through the arguments, transforming them on the way.
for arg
do
# If the previous option needs an argument, assign it.
if test -n "$prev"; then
case "$prev" in
output)
compile_command="$compile_command @OUTPUT@"
finalize_command="$finalize_command @OUTPUT@"
;;
esac
case "$prev" in
dlfiles|dlprefiles)
case "$arg" in
*.la | *.lo) ;; # We handle these cases below.
*)
dlprefiles="$dlprefiles $arg"
test "$prev" = dlfiles && dlfiles="$dlfiles $arg"
prev=
;;
esac
;;
release)
release="-$arg"
prev=
continue
;;
rpath)
rpath="$rpath $arg"
prev=
continue
;;
*)
eval "$prev=\"\$arg\""
prev=
continue
;;
esac
fi
prevarg="$arg"
case "$arg" in
-all-static)
if test -n "$link_static_flag"; then
compile_command="$compile_command $link_static_flag"
finalize_command="$finalize_command $link_static_flag"
fi
continue
;;
-allow-undefined)
# FIXME: remove this flag sometime in the future.
$echo "$modename: \`-allow-undefined' is deprecated because it is the default" 1>&2
continue
;;
-dlopen)
prev=dlfiles
continue
;;
-dlpreopen)
prev=dlprefiles
continue
;;
-export-dynamic)
if test "$export_dynamic" != yes; then
export_dynamic=yes
if test -n "$export_dynamic_flag_spec"; then
eval arg=\"$export_dynamic_flag_spec\"
else
arg=
fi
# Add the symbol object into the linking commands.
compile_command="$compile_command @SYMFILE@"
finalize_command="$finalize_command @SYMFILE@"
fi
;;
-L*)
dir=`$echo "X$arg" | $Xsed -e 's%^-L\(.*\)$%\1%'`
case "$dir" in
/* | [A-Za-z]:\\*)
# Add the corresponding hardcode_libdir_flag, if it is not identical.
;;
*)
$echo "$modename: \`-L$dir' cannot specify a relative directory" 1>&2
exit 1
;;
esac
deplibs="$deplibs $arg"
;;
-l*) deplibs="$deplibs $arg" ;;
-no-undefined)
allow_undefined=no
continue
;;
-o) prev=output ;;
-release)
prev=release
continue
;;
-rpath)
prev=rpath
continue
;;
-static)
# If we have no pic_flag, then this is the same as -all-static.
if test -z "$pic_flag" && test -n "$link_static_flag"; then
compile_command="$compile_command $link_static_flag"
finalize_command="$finalize_command $link_static_flag"
fi
continue
;;
-version-info)
prev=vinfo
continue
;;
# Some other compiler flag.
-* | +*)
# Unknown arguments in both finalize_command and compile_command need
# to be aesthetically quoted because they are evaled later.
arg=`$echo "X$arg" | $Xsed -e "$sed_quote_subst"`
case "$arg" in
*[\[\~\#\^\&\*\(\)\{\}\|\;\<\>\?\'\ \ ]*|*]*)
arg="\"$arg\""
;;
esac
;;
*.o | *.a)
# A standard object.
objs="$objs $arg"
;;
*.lo)
# A library object.
if test "$prev" = dlfiles; then
dlfiles="$dlfiles $arg"
if test "$build_libtool_libs" = yes; then
prev=
continue
else
# If libtool objects are unsupported, then we need to preload.
prev=dlprefiles
fi
fi
if test "$prev" = dlprefiles; then
# Preload the old-style object.
dlprefiles="$dlprefiles "`$echo "X$arg" | $Xsed -e 's/\.lo$/\.o/'`
prev=
fi
libobjs="$libobjs $arg"
;;
*.la)
# A libtool-controlled library.
dlname=
libdir=
library_names=
old_library=
# Check to see that this really is a libtool archive.
if (sed -e '2q' $arg | egrep '^# Generated by ltmain\.sh') >/dev/null 2>&1; then :
else
$echo "$modename: \`$arg' is not a valid libtool archive" 1>&2
exit 1
fi
# If there is no directory component, then add one.
case "$arg" in
*/* | *\\*) . $arg ;;
*) . ./$arg ;;
esac
if test -z "$libdir"; then
$echo "$modename: \`$arg' contains no -rpath information" 1>&2
exit 1
fi
# Get the name of the library we link against.
linklib=
for l in $old_library $library_names; do
linklib="$l"
done
if test -z "$linklib"; then
$echo "$modename: cannot find name of link library for \`$arg'" 1>&2
exit 1
fi
# Find the relevant object directory and library name.
name=`$echo "X$arg" | $Xsed -e 's%^.*/%%' -e 's/\.la$//' -e 's/^lib//'`
dir=`$echo "X$arg" | $Xsed -e 's%/[^/]*$%%'`
if test "X$dir" = "X$arg"; then
dir="$objdir"
else
dir="$dir/$objdir"
fi
# This library was specified with -dlopen.
if test "$prev" = dlfiles; then
dlfiles="$dlfiles $arg"
if test -z "$dlname"; then
# If there is no dlname, we need to preload.
prev=dlprefiles
else
# We should not create a dependency on this library, but we
# may need any libraries it requires.
compile_command="$compile_command$dependency_libs"
finalize_command="$finalize_command$dependency_libs"
prev=
continue
fi
fi
# The library was specified with -dlpreopen.
if test "$prev" = dlprefiles; then
# Prefer using a static library (so that no silly _DYNAMIC symbols
# are required to link).
if test -n "$old_library"; then
dlprefiles="$dlprefiles $dir/$old_library"
else
dlprefiles="$dlprefiles $dir/$linklib"
fi
prev=
fi
if test "$build_libtool_libs" = yes && test -n "$library_names"; then
link_against_libtool_libs="$link_against_libtool_libs $arg"
if test -n "$shlibpath_var"; then
# Make sure the rpath contains only unique directories.
case "$temp_rpath " in
*" $dir "*) ;;
*) temp_rpath="$temp_rpath $dir" ;;
esac
fi
# This is the magic to use -rpath.
if test -n "$hardcode_libdir_flag_spec"; then
if test -n "$hardcode_libdir_separator"; then
if test -z "$hardcode_libdirs"; then
# Put the magic libdir with the hardcode flag.
hardcode_libdirs="$libdir"
libdir="@HARDCODE_LIBDIRS@"
else
# Just accumulate the unique libdirs.
case "$hardcode_libdir_separator$hardcode_libdirs$hardcode_libdir_separator" in
*"$hardcode_libdir_separator$libdir$hardcode_libdir_separator"*)
;;
*)
hardcode_libdirs="$hardcode_libdirs$hardcode_libdir_separator$libdir"
;;
esac
libdir=
fi
fi
if test -n "$libdir"; then
eval flag=\"$hardcode_libdir_flag_spec\"
compile_command="$compile_command $flag"
finalize_command="$finalize_command $flag"
fi
elif test -n "$runpath_var"; then
# Do the same for the permanent run path.
case "$perm_rpath " in
*" $libdir "*) ;;
*) perm_rpath="$perm_rpath $libdir" ;;
esac
fi
case "$hardcode_action" in
immediate)
if test "$hardcode_direct" = no; then
compile_command="$compile_command $dir/$linklib"
elif test "$hardcode_minus_L" = no; then
compile_command="$compile_command -L$dir -l$name"
elif test "$hardcode_shlibpath_var" = no; then
compile_shlibpath="$compile_shlibpath$dir:"
compile_command="$compile_command -l$name"
fi
;;
relink)
# We need an absolute path.
case "$dir" in
/* | [A-Za-z]:\\*) ;;
*)
absdir=`cd "$dir" && pwd`
if test -z "$absdir"; then
$echo "$modename: cannot determine absolute directory name of \`$dir'" 1>&2
exit 1
fi
dir="$absdir"
;;
esac
if test "$hardcode_direct" = yes; then
compile_command="$compile_command $dir/$linklib"
elif test "$hardcode_minus_L" = yes; then
compile_command="$compile_command -L$dir -l$name"
elif test "$hardcode_shlibpath_var" = yes; then
compile_shlibpath="$compile_shlibpath$dir:"
compile_command="$compile_command -l$name"
fi
;;
*)
$echo "$modename: \`$hardcode_action' is an unknown hardcode action" 1>&2
exit 1
;;
esac
# Finalize command for both is simple: just hardcode it.
if test "$hardcode_direct" = yes; then
finalize_command="$finalize_command $libdir/$linklib"
elif test "$hardcode_minus_L" = yes; then
finalize_command="$finalize_command -L$libdir -l$name"
elif test "$hardcode_shlibpath_var" = yes; then
finalize_shlibpath="$finalize_shlibpath$libdir:"
finalize_command="$finalize_command -l$name"
else
# We cannot seem to hardcode it, guess we'll fake it.
finalize_command="$finalize_command -L$libdir -l$name"
fi
else
# Transform directly to old archives if we don't build new libraries.
if test -n "$pic_flag" && test -z "$old_library"; then
$echo "$modename: cannot find static library for \`$arg'" 1>&2
exit 1
fi
# Here we assume that one of hardcode_direct or hardcode_minus_L
# is not unsupported. This is valid on all known static and
# shared platforms.
if test "$hardcode_direct" != unsupported; then
test -n "$old_library" && linklib="$old_library"
compile_command="$compile_command $dir/$linklib"
finalize_command="$finalize_command $dir/$linklib"
else
compile_command="$compile_command -L$dir -l$name"
finalize_command="$finalize_command -L$dir -l$name"
fi
fi
# Add in any libraries that this one depends upon.
compile_command="$compile_command$dependency_libs"
finalize_command="$finalize_command$dependency_libs"
continue
;;
# Some other compiler argument.
*)
# Unknown arguments in both finalize_command and compile_command need
# to be aesthetically quoted because they are evaled later.
arg=`$echo "X$arg" | $Xsed -e "$sed_quote_subst"`
case "$arg" in
*[\[\~\#\^\&\*\(\)\{\}\|\;\<\>\?\'\ \ ]*|*]*)
arg="\"$arg\""
;;
esac
;;
esac
# Now actually substitute the argument into the commands.
if test -n "$arg"; then
compile_command="$compile_command $arg"
finalize_command="$finalize_command $arg"
fi
done
if test -n "$prev"; then
$echo "$modename: the \`$prevarg' option requires an argument" 1>&2
$echo "$help" 1>&2
exit 1
fi
if test -n "$vinfo" && test -n "$release"; then
$echo "$modename: you cannot specify both \`-version-info' and \`-release'" 1>&2
$echo "$help" 1>&2
exit 1
fi
oldlib=
oldobjs=
case "$output" in
"")
$echo "$modename: you must specify an output file" 1>&2
$echo "$help" 1>&2
exit 1
;;
*/* | *\\*)
$echo "$modename: output file \`$output' must have no directory components" 1>&2
exit 1
;;
*.a)
# Now set the variables for building old libraries.
build_libtool_libs=no
build_old_libs=yes
oldlib="$output"
$show "$rm $oldlib"
$run $rm $oldlib
;;
*.la)
# Make sure we only generate libraries of the form `libNAME.la'.
case "$output" in
lib*) ;;
*)
$echo "$modename: libtool library \`$arg' must begin with \`lib'" 1>&2
$echo "$help" 1>&2
exit 1
;;
esac
name=`$echo "X$output" | $Xsed -e 's/\.la$//' -e 's/^lib//'`
eval libname=\"$libname_spec\"
# All the library-specific variables (install_libdir is set above).
library_names=
old_library=
dlname=
current=0
revision=0
age=0
if test -n "$objs"; then
$echo "$modename: cannot build libtool library \`$output' from non-libtool objects:$objs" 2>&1
exit 1
fi
# How the heck are we supposed to write a wrapper for a shared library?
if test -n "$link_against_libtool_libs"; then
$echo "$modename: libtool library \`$output' may not depend on uninstalled libraries:$link_against_libtool_libs" 1>&2
exit 1
fi
if test -n "$dlfiles$dlprefiles"; then
$echo "$modename: warning: \`-dlopen' is ignored while creating libtool libraries" 1>&2
# Nullify the symbol file.
compile_command=`$echo "X$compile_command" | $Xsed -e "s% @SYMFILE@%%"`
finalize_command=`$echo "X$finalize_command" | $Xsed -e "s% @SYMFILE@%%"`
fi
if test -z "$rpath"; then
$echo "$modename: you must specify an installation directory with \`-rpath'" 1>&2
$echo "$help" 1>&2
exit 1
fi
set dummy $rpath
if test $# -gt 2; then
$echo "$modename: warning: ignoring multiple \`-rpath's for a libtool library" 1>&2
fi
install_libdir="$2"
# Parse the version information argument.
IFS="${IFS= }"; save_ifs="$IFS"; IFS=':'
set dummy $vinfo
IFS="$save_ifs"
if test -n "$5"; then
$echo "$modename: too many parameters to \`-version-info'" 1>&2
$echo "$help" 1>&2
exit 1
fi
test -n "$2" && current="$2"
test -n "$3" && revision="$3"
test -n "$4" && age="$4"
# Check that each of the things are valid numbers.
case "$current" in
0 | [1-9] | [1-9][0-9]*) ;;
*)
$echo "$modename: CURRENT \`$current' is not a nonnegative integer" 1>&2
$echo "$modename: \`$vinfo' is not valid version information" 1>&2
exit 1
;;
esac
case "$revision" in
0 | [1-9] | [1-9][0-9]*) ;;
*)
$echo "$modename: REVISION \`$revision' is not a nonnegative integer" 1>&2
$echo "$modename: \`$vinfo' is not valid version information" 1>&2
exit 1
;;
esac
case "$age" in
0 | [1-9] | [1-9][0-9]*) ;;
*)
$echo "$modename: AGE \`$age' is not a nonnegative integer" 1>&2
$echo "$modename: \`$vinfo' is not valid version information" 1>&2
exit 1
;;
esac
if test $age -gt $current; then
$echo "$modename: AGE \`$age' is greater than the current interface number \`$current'" 1>&2
$echo "$modename: \`$vinfo' is not valid version information" 1>&2
exit 1
fi
# Calculate the version variables.
version_vars="version_type current age revision"
case "$version_type" in
none) ;;
linux)
version_vars="$version_vars major versuffix"
major=`expr $current - $age`
versuffix="$major.$age.$revision"
;;
osf)
version_vars="$version_vars versuffix verstring"
major=`expr $current - $age`
versuffix="$current.$age.$revision"
verstring="$versuffix"
# Add in all the interfaces that we are compatible with.
loop=$age
while test $loop != 0; do
iface=`expr $current - $loop`
loop=`expr $loop - 1`
verstring="$verstring:${iface}.0"
done
# Make executables depend on our current version.
verstring="$verstring:${current}.0"
;;
sunos)
version_vars="$version_vars major versuffix"
major="$current"
versuffix="$current.$revision"
;;
*)
$echo "$modename: unknown library version type \`$version_type'" 1>&2
echo "Fatal configuration error. See the $PACKAGE docs for more information." 1>&2
exit 1
;;
esac
# Create the output directory, or remove our outputs if we need to.
if test -d $objdir; then
$show "$rm $objdir/$output $objdir/$libname.* $objdir/${libname}${release}.*"
$run $rm $objdir/$output $objdir/$libname.* $objdir/${libname}${release}.*
else
$show "$mkdir $objdir"
$run $mkdir $objdir
status=$?
if test $status -eq 0 || test -d $objdir; then :
else
exit $status
fi
fi
# Check to see if the archive will have undefined symbols.
if test "$allow_undefined" = yes; then
if test "$allow_undefined_flag" = unsupported; then
$echo "$modename: warning: undefined symbols not allowed in $host shared libraries" 1>&2
build_libtool_libs=no
build_old_libs=yes
fi
else
# Don't allow undefined symbols.
allow_undefined_flag="$no_undefined_flag"
fi
# Add libc to deplibs on all systems.
dependency_libs="$deplibs"
deplibs="$deplibs -lc"
if test "$build_libtool_libs" = yes; then
# Get the real and link names of the library.
eval library_names=\"$library_names_spec\"
set dummy $library_names
realname="$2"
shift; shift
if test -n "$soname_spec"; then
eval soname=\"$soname_spec\"
else
soname="$realname"
fi
lib="$objdir/$realname"
for link
do
linknames="$linknames $link"
done
# Use standard objects if they are PIC.
test -z "$pic_flag" && libobjs=`$echo "X$libobjs " | $Xsed -e 's/\.lo /.o /g' -e 's/ $//g'`
# Do each of the archive commands.
eval cmds=\"$archive_cmds\"
IFS="${IFS= }"; save_ifs="$IFS"; IFS=';'
for cmd in $cmds; do
IFS="$save_ifs"
$show "$cmd"
$run eval "$cmd" || exit $?
done
IFS="$save_ifs"
# Create links to the real library.
for linkname in $linknames; do
$show "(cd $objdir && $LN_S $realname $linkname)"
$run eval '(cd $objdir && $LN_S $realname $linkname)' || exit $?
done
# If -export-dynamic was specified, set the dlname.
if test "$export_dynamic" = yes; then
# On all known operating systems, these are identical.
dlname="$soname"
fi
fi
# Now set the variables for building old libraries.
oldlib="$objdir/$libname.a"
;;
*.lo | *.o)
if test -n "$link_against_libtool_libs"; then
$echo "$modename: error: cannot link libtool libraries into reloadable objects" 1>&2
exit 1
fi
if test -n "$deplibs"; then
$echo "$modename: warning: \`-l' and \`-L' are ignored while creating objects" 1>&2
fi
if test -n "$dlfiles$dlprefiles"; then
$echo "$modename: warning: \`-dlopen' is ignored while creating objects" 1>&2
# Nullify the symbol file.
compile_command=`$echo "X$compile_command" | $Xsed -e "s% @SYMFILE@%%"`
finalize_command=`$echo "X$finalize_command" | $Xsed -e "s% @SYMFILE@%%"`
fi
if test -n "$rpath"; then
$echo "$modename: warning: \`-rpath' is ignored while creating objects" 1>&2
fi
if test -n "$vinfo"; then
$echo "$modename: warning: \`-version-info' is ignored while creating objects" 1>&2
fi
if test -n "$release"; then
$echo "$modename: warning: \`-release' is ignored while creating objects" 1>&2
fi
case "$output" in
*.lo)
if test -n "$objs"; then
$echo "$modename: cannot build library object \`$output' from non-libtool objects" 1>&2
exit 1
fi
libobj="$output"
obj=`$echo "X$output" | $Xsed -e 's/\.lo$/.o/'`
;;
*)
libobj=
obj="$output"
;;
esac
# Delete the old objects.
$run $rm $obj $libobj
# Create the old-style object.
reload_objs="$objs"`$echo "X$libobjs " | $Xsed -e 's/[^ ]*\.a //g' -e 's/\.lo /.o /g' -e 's/ $//g'`
output="$obj"
eval cmds=\"$reload_cmds\"
IFS="${IFS= }"; save_ifs="$IFS"; IFS=';'
for cmd in $cmds; do
IFS="$save_ifs"
$show "$cmd"
$run eval "$cmd" || exit $?
done
IFS="$save_ifs"
# Exit if we aren't doing a library object file.
test -z "$libobj" && exit 0
if test "$build_libtool_libs" != yes; then
# Create an invalid libtool object if no PIC, so that we don't
# accidentally link it into a program.
$show "echo timestamp > $libobj"
$run eval "echo timestamp > $libobj" || exit $?
exit 0
fi
if test -n "$pic_flag"; then
# Only do commands if we really have different PIC objects.
reload_objs="$libobjs"
output="$libobj"
eval cmds=\"$reload_cmds\"
IFS="${IFS= }"; save_ifs="$IFS"; IFS=';'
for cmd in $cmds; do
IFS="$save_ifs"
$show "$cmd"
$run eval "$cmd" || exit $?
done
IFS="$save_ifs"
else
# Just create a symlink.
$show "$LN_S $obj $libobj"
$run $LN_S $obj $libobj || exit 1
fi
exit 0
;;
*)
if test -n "$vinfo"; then
$echo "$modename: warning: \`-version-info' is ignored while linking programs" 1>&2
fi
if test -n "$release"; then
$echo "$modename: warning: \`-release' is ignored while creating objects" 1>&2
fi
if test -n "$rpath"; then
# If the user specified any rpath flags, then add them.
for libdir in $rpath; do
if test -n "$hardcode_libdir_flag_spec"; then
if test -n "$hardcode_libdir_separator"; then
if test -z "$hardcode_libdirs"; then
# Put the magic libdir with the hardcode flag.
hardcode_libdirs="$libdir"
libdir="@HARDCODE_LIBDIRS@"
else
# Just accumulate the unique libdirs.
case "$hardcode_libdir_separator$hardcode_libdirs$hardcode_libdir_separator" in
*"$hardcode_libdir_separator$libdir$hardcode_libdir_separator"*)
;;
*)
hardcode_libdirs="$hardcode_libdirs$hardcode_libdir_separator$libdir"
;;
esac
libdir=
fi
fi
if test -n "$libdir"; then
eval flag=\"$hardcode_libdir_flag_spec\"
compile_command="$compile_command $flag"
finalize_command="$finalize_command $flag"
fi
elif test -n "$runpath_var"; then
case "$perm_rpath " in
*" $libdir "*) ;;
*) perm_rpath="$perm_rpath $libdir" ;;
esac
fi
done
fi
# Substitute the hardcoded libdirs into the compile commands.
if test -n "$hardcode_libdir_separator"; then
compile_command=`$echo "X$compile_command" | $Xsed -e "s%@HARDCODE_LIBDIRS@%$hardcode_libdirs%g"`
finalize_command=`$echo "X$finalize_command" | $Xsed -e "s%@HARDCODE_LIBDIRS@%$hardcode_libdirs%g"`
fi
if test -n "$libobjs" && test "$build_old_libs" = yes; then
# Transform all the library objects into standard objects.
compile_command=`$echo "X$compile_command " | $Xsed -e 's/\.lo /.o /g' -e 's/ $//'`
finalize_command=`$echo "X$finalize_command " | $Xsed -e 's/\.lo /.o /g' -e 's/ $//'`
fi
if test "$export_dynamic" = yes && test -n "$NM" && test -n "$global_symbol_pipe"; then
dlsyms="${output}S.c"
else
dlsyms=
fi
if test -n "$dlsyms"; then
# Add our own program objects to the preloaded list.
dlprefiles=`$echo "X$objs$dlprefiles " | $Xsed -e 's/\.lo /.o /g' -e 's/ $//'`
# Discover the nlist of each of the dlfiles.
nlist="$objdir/${output}.nm"
if test -d $objdir; then
$show "$rm $nlist ${nlist}T"
$run $rm "$nlist" "${nlist}T"
else
$show "$mkdir $objdir"
$run $mkdir $objdir
status=$?
if test $status -eq 0 || test -d $objdir; then :
else
exit $status
fi
fi
for arg in $dlprefiles; do
$show "extracting global C symbols from \`$arg'"
$run eval "$NM $arg | $global_symbol_pipe >> '$nlist'"
done
# Parse the name list into a source file.
$show "creating $objdir/$dlsyms"
if test -z "$run"; then
# Make sure we at least have an empty file.
test -f "$nlist" || : > "$nlist"
# Try sorting and uniquifying the output.
if sort "$nlist" | uniq > "$nlist"T; then
mv -f "$nlist"T "$nlist"
wcout=`wc "$nlist" 2>/dev/null`
count=`echo "X$wcout" | $Xsed -e 's/^[ ]*\([0-9][0-9]*\).*$/\1/'`
(test "$count" -ge 0) 2>/dev/null || count=-1
else
$rm "$nlist"T
count=-1
fi
case "$dlsyms" in
"") ;;
*.c)
$echo > "$objdir/$dlsyms" "\
/* $dlsyms - symbol resolution table for \`$output' dlsym emulation. */
/* Generated by $PROGRAM - GNU $PACKAGE $VERSION */
#ifdef __cplusplus
extern \"C\" {
#endif
/* Prevent the only kind of declaration conflicts we can make. */
#define dld_preloaded_symbol_count some_other_symbol
#define dld_preloaded_symbols some_other_symbol
/* External symbol declarations for the compiler. */\
"
if test -f "$nlist"; then
sed -e 's/^.* \(.*\)$/extern char \1;/' < "$nlist" >> "$objdir/$dlsyms"
else
echo '/* NONE */' >> "$objdir/$dlsyms"
fi
$echo >> "$objdir/$dlsyms" "\
#undef dld_preloaded_symbol_count
#undef dld_preloaded_symbols
#if defined (__STDC__) && __STDC__
# define __ptr_t void *
#else
# define __ptr_t char *
#endif
/* The number of symbols in dld_preloaded_symbols, -1 if unsorted. */
int dld_preloaded_symbol_count = $count;
/* The mapping between symbol names and symbols. */
struct {
char *name;
__ptr_t address;
}
dld_preloaded_symbols[] =
{\
"
if test -f "$nlist"; then
sed 's/^\(.*\) \(.*\)$/ {"\1", (__ptr_t) \&\2},/' < "$nlist" >> "$objdir/$dlsyms"
fi
$echo >> "$objdir/$dlsyms" "\
{0, (__ptr_t) 0}
};
#ifdef __cplusplus
}
#endif\
"
;;
*)
$echo "$modename: unknown suffix for \`$dlsyms'" 1>&2
exit 1
;;
esac
fi
# Now compile the dynamic symbol file.
$show "(cd $objdir && $CC -c$no_builtin_flag \"$dlsyms\")"
$run eval '(cd $objdir && $CC -c$no_builtin_flag "$dlsyms")' || exit $?
# Transform the symbol file into the correct name.
compile_command=`$echo "X$compile_command" | $Xsed -e "s%@SYMFILE@%$objdir/${output}S.o%"`
finalize_command=`$echo "X$finalize_command" | $Xsed -e "s%@SYMFILE@%$objdir/${output}S.o%"`
elif test "$export_dynamic" != yes; then
test -n "$dlfiles$dlprefiles" && $echo "$modename: warning: \`-dlopen' and \`-dlpreopen' are ignored without \`-export-dynamic'" 1>&2
else
# We keep going just in case the user didn't refer to
# dld_preloaded_symbols. The linker will fail if global_symbol_pipe
# really was required.
$echo "$modename: not configured to extract global symbols from dlpreopened files" 1>&2
# Nullify the symbol file.
compile_command=`$echo "X$compile_command" | $Xsed -e "s% @SYMFILE@%%"`
finalize_command=`$echo "X$finalize_command" | $Xsed -e "s% @SYMFILE@%%"`
fi
if test -z "$link_against_libtool_libs" || test "$build_libtool_libs" != yes; then
# Replace the output file specification.
compile_command=`$echo "X$compile_command" | $Xsed -e 's%@OUTPUT@%'"$output"'%g'`
finalize_command=`$echo "X$finalize_command" | $Xsed -e 's%@OUTPUT@%'"$output"'%g'`
# We have no uninstalled library dependencies, so finalize right now.
$show "$compile_command"
$run eval "$compile_command"
exit $?
fi
# Replace the output file specification.
compile_command=`$echo "X$compile_command" | $Xsed -e 's%@OUTPUT@%'"$objdir/$output"'%g'`
finalize_command=`$echo "X$finalize_command" | $Xsed -e 's%@OUTPUT@%'"$objdir/$output"'T%g'`
# Create the binary in the object directory, then wrap it.
if test -d $objdir; then :
else
$show "$mkdir $objdir"
$run $mkdir $objdir
status=$?
if test $status -eq 0 || test -d $objdir; then :
else
exit $status
fi
fi
if test -n "$shlibpath_var"; then
# We should set the shlibpath_var
rpath=
for dir in $temp_rpath; do
case "$dir" in
/* | [A-Za-z]:\\*)
# Absolute path.
rpath="$rpath$dir:"
;;
*)
# Relative path: add a thisdir entry.
rpath="$rpath\$thisdir/$dir:"
;;
esac
done
temp_rpath="$rpath"
fi
# Delete the old output file.
$run $rm $output
if test -n "$compile_shlibpath"; then
compile_command="$shlibpath_var=\"$compile_shlibpath\$$shlibpath_var\" $compile_command"
fi
if test -n "$finalize_shlibpath"; then
finalize_command="$shlibpath_var=\"$finalize_shlibpath\$$shlibpath_var\" $finalize_command"
fi
if test -n "$runpath_var" && test -n "$perm_rpath"; then
# We should set the runpath_var.
rpath=
for dir in $perm_rpath; do
rpath="$rpath$dir:"
done
compile_command="$runpath_var=\"$rpath\$$runpath_var\" $compile_command"
finalize_command="$runpath_var=\"$rpath\$$runpath_var\" $finalize_command"
fi
case "$hardcode_action" in
relink)
# AGH! Flame the AIX and HP-UX people for me, will ya?
$echo "$modename: warning: using a buggy system linker" 1>&2
$echo "$modename: relinking will be required before \`$output' can be installed" 1>&2
;;
esac
$show "$compile_command"
$run eval "$compile_command" || exit $?
# Now create the wrapper script.
$show "creating $output"
# Quote the finalize command for shipping.
finalize_command=`$echo "X$finalize_command" | $Xsed -e "$sed_quote_subst"`
# Quote $echo for shipping.
qecho=`$echo "X$echo" | $Xsed -e "$sed_quote_subst"`
# Only actually do things if our run command is non-null.
if test -z "$run"; then
$rm $output
trap "$rm $output; exit 1" 1 2 15
$echo > $output "\
#! /bin/sh
# $output - temporary wrapper script for $objdir/$output
# Generated by ltmain.sh - GNU $PACKAGE $VERSION
#
# The $output program cannot be directly executed until all the libtool
# libraries that it depends on are installed.
#
# This wrapper script should never be moved out of \``pwd`'.
# If it is, it will not operate correctly.
# Sed substitution that helps us do robust quoting. It backslashifies
# metacharacters that are still active within double-quoted strings.
Xsed='sed -e s/^X//'
sed_quote_subst='$sed_quote_subst'
# The HP-UX ksh and POSIX shell print the target directory to stdout
# if CDPATH is set.
if test \"\${CDPATH+set}\" = set; then CDPATH=; export CDPATH; fi
# This environment variable determines our operation mode.
if test \"\$libtool_install_magic\" = \"$magic\"; then
# install mode needs the following variables:
link_against_libtool_libs='$link_against_libtool_libs'
finalize_command=\"$finalize_command\"
else
# When we are sourced in execute mode, \$file and \$echo are already set.
if test \"\$libtool_execute_magic\" = \"$magic\"; then :
else
echo=\"$qecho\"
file=\"\$0\"
fi\
"
$echo >> $output "\
# Find the directory that this script lives in.
thisdir=\`\$echo \"X\$file\" | \$Xsed -e 's%/[^/]*$%%'\`
test \"x\$thisdir\" = \"x\$file\" && thisdir=.
# Follow symbolic links until we get to the real thisdir.
file=\`ls -ld \"\$file\" | sed -n 's/.*-> //p'\`
while test -n \"\$file\"; do
destdir=\`\$echo \"X\$file\" | \$Xsed -e 's%/[^/]*\$%%'\`
# If there was a directory component, then change thisdir.
if test \"x\$destdir\" != \"x\$file\"; then
case \"\$destdir\" in
/* | [A-Za-z]:\\*) thisdir=\"\$destdir\" ;;
*) thisdir=\"\$thisdir/\$destdir\" ;;
esac
fi
file=\`\$echo \"X\$file\" | \$Xsed -e 's%^.*/%%'\`
file=\`ls -ld \"\$thisdir/\$file\" | sed -n 's/.*-> //p'\`
done
# Try to get the absolute directory name.
absdir=\`cd \"\$thisdir\" && pwd\`
test -n \"\$absdir\" && thisdir=\"\$absdir\"
progdir=\"\$thisdir/$objdir\"
program='$output'
if test -f \"\$progdir/\$program\"; then"
# Export our shlibpath_var if we have one.
if test -n "$shlibpath_var" && test -n "$temp_rpath"; then
$echo >> $output "\
# Add our own library path to $shlibpath_var
$shlibpath_var=\"$temp_rpath\$$shlibpath_var\"
# Some systems cannot cope with colon-terminated $shlibpath_var
$shlibpath_var=\`\$echo \"X\$$shlibpath_var\" | \$Xsed -e 's/:*\$//'\`
export $shlibpath_var
"
fi
$echo >> $output "\
if test \"\$libtool_execute_magic\" != \"$magic\"; then
# Run the actual program with our arguments.
# Export the path to the program.
PATH=\"\$progdir:\$PATH\"
export PATH
exec \$program \${1+\"\$@\"}
\$echo \"\$0: cannot exec \$program \${1+\"\$@\"}\"
exit 1
fi
else
# The program doesn't exist.
\$echo \"\$0: error: \$progdir/\$program does not exist\" 1>&2
\$echo \"This script is just a wrapper for \$program.\" 1>&2
echo \"See the $PACKAGE documentation for more information.\" 1>&2
exit 1
fi
fi\
"
chmod +x $output
fi
exit 0
;;
esac
# See if we need to build an old-fashioned archive.
if test "$build_old_libs" = "yes"; then
# Transform .lo files to .o files.
oldobjs="$objs"`$echo "X$libobjs " | $Xsed -e 's/[^ ]*\.a //g' -e 's/\.lo /.o /g' -e 's/ $//g'`
# Do each command in the archive commands.
if test -n "$old_archive_from_new_cmds" && test "$build_libtool_libs" = yes; then
eval cmds=\"$old_archive_from_new_cmds\"
else
eval cmds=\"$old_archive_cmds\"
fi
IFS="${IFS= }"; save_ifs="$IFS"; IFS=';'
for cmd in $cmds; do
IFS="$save_ifs"
$show "$cmd"
$run eval "$cmd" || exit $?
done
IFS="$save_ifs"
fi
# Now create the libtool archive.
case "$output" in
*.la)
old_library=
test "$build_old_libs" = yes && old_library="$libname.a"
$show "creating $output"
# Only create the output if not a dry run.
if test -z "$run"; then
$echo > $output "\
# $output - a libtool library file
# Generated by ltmain.sh - GNU $PACKAGE $VERSION
# The name that we can dlopen(3).
dlname='$dlname'
# Names of this library.
library_names='$library_names'
# The name of the static archive.
old_library='$old_library'
# Libraries that this one depends upon.
dependency_libs='$dependency_libs'
# Version information for $libname.
current=$current
age=$age
revision=$revision
# Directory that this library needs to be installed in:
libdir='$install_libdir'\
"
fi
# Do a symbolic link so that the libtool archive can be found in
# LD_LIBRARY_PATH before the program is installed.
$show "(cd $objdir && $LN_S ../$output $output)"
$run eval "(cd $objdir && $LN_S ../$output $output)" || exit 1
;;
esac
exit 0
;;
# libtool install mode
install)
modename="$modename: install"
# There may be an optional /bin/sh argument at the beginning of
# install_prog (especially on Windows NT).
if test "$nonopt" = "$SHELL"; then
# Aesthetically quote it.
arg=`$echo "X$nonopt" | $Xsed -e "$sed_quote_subst"`
case "$arg" in
*[\[\~\#\^\&\*\(\)\{\}\|\;\<\>\?\'\ \ ]*|*]*)
arg="\"$arg\""
;;
esac
install_prog="$arg "
arg="$1"
shift
else
install_prog=
arg="$nonopt"
fi
# The real first argument should be the name of the installation program.
# Aesthetically quote it.
arg=`$echo "X$arg" | $Xsed -e "$sed_quote_subst"`
case "$arg" in
*[\[\~\#\^\&\*\(\)\{\}\|\;\<\>\?\'\ \ ]*|*]*)
arg="\"$arg\""
;;
esac
install_prog="$install_prog$arg"
# We need to accept at least all the BSD install flags.
dest=
files=
opts=
prev=
install_type=
isdir=
stripme=
for arg
do
if test -n "$dest"; then
files="$files $dest"
dest="$arg"
continue
fi
case "$arg" in
-d) isdir=yes ;;
-f) prev="-f" ;;
-g) prev="-g" ;;
-m) prev="-m" ;;
-o) prev="-o" ;;
-s)
stripme=" -s"
continue
;;
-*) ;;
*)
# If the previous option needed an argument, then skip it.
if test -n "$prev"; then
prev=
else
dest="$arg"
continue
fi
;;
esac
# Aesthetically quote the argument.
arg=`$echo "X$arg" | $Xsed -e "$sed_quote_subst"`
case "$arg" in
*[\[\~\#\^\&\*\(\)\{\}\|\;\<\>\?\'\ \ ]*|*]*)
arg="\"$arg\""
;;
esac
install_prog="$install_prog $arg"
done
if test -z "$install_prog"; then
$echo "$modename: you must specify an install program" 1>&2
$echo "$help" 1>&2
exit 1
fi
if test -n "$prev"; then
$echo "$modename: the \`$prev' option requires an argument" 1>&2
$echo "$help" 1>&2
exit 1
fi
if test -z "$files"; then
if test -z "$dest"; then
$echo "$modename: no file or destination specified" 1>&2
else
$echo "$modename: you must specify a destination" 1>&2
fi
$echo "$help" 1>&2
exit 1
fi
# Strip any trailing slash from the destination.
dest=`$echo "X$dest" | $Xsed -e 's%/$%%'`
# Check to see that the destination is a directory.
test -d "$dest" && isdir=yes
if test -n "$isdir"; then
destdir="$dest"
destname=
else
destdir=`$echo "X$dest" | $Xsed -e 's%/[^/]*$%%'`
test "X$destdir" = "X$dest" && destdir=.
destname=`$echo "X$dest" | $Xsed -e 's%^.*/%%'`
# Not a directory, so check to see that there is only one file specified.
set dummy $files
if test $# -gt 2; then
$echo "$modename: \`$dest' is not a directory" 1>&2
$echo "$help" 1>&2
exit 1
fi
fi
case "$destdir" in
/* | [A-Za-z]:\\*) ;;
*)
for file in $files; do
case "$file" in
*.lo) ;;
*)
$echo "$modename: \`$destdir' must be an absolute directory name" 1>&2
$echo "$help" 1>&2
exit 1
;;
esac
done
;;
esac
# This variable tells wrapper scripts just to set variables rather
# than running their programs.
libtool_install_magic="$magic"
staticlibs=
future_libdirs=
current_libdirs=
for file in $files; do
# Do each installation.
case "$file" in
*.a)
# Do the static libraries later.
staticlibs="$staticlibs $file"
;;
*.la)
# Check to see that this really is a libtool archive.
if (sed -e '2q' $file | egrep '^# Generated by ltmain\.sh') >/dev/null 2>&1; then :
else
$echo "$modename: \`$file' is not a valid libtool archive" 1>&2
$echo "$help" 1>&2
exit 1
fi
library_names=
old_library=
# If there is no directory component, then add one.
case "$file" in
*/* | *\\*) . $file ;;
*) . ./$file ;;
esac
# Add the libdir to current_libdirs if it is the destination.
if test "X$destdir" = "X$libdir"; then
case "$current_libdirs " in
*" $libdir "*) ;;
*) current_libdirs="$current_libdirs $libdir" ;;
esac
else
# Note the libdir as a future libdir.
case "$future_libdirs " in
*" $libdir "*) ;;
*) future_libdirs="$future_libdirs $libdir" ;;
esac
fi
dir="`$echo "X$file" | $Xsed -e 's%/[^/]*$%%'`/"
test "X$dir" = "X$file/" && dir=
dir="$dir$objdir"
# See the names of the shared library.
set dummy $library_names
if test -n "$2"; then
realname="$2"
shift
shift
# Install the shared library and build the symlinks.
$show "$install_prog $dir/$realname $destdir/$realname"
$run eval "$install_prog $dir/$realname $destdir/$realname" || exit $?
test "X$dlname" = "X$realname" && dlname=
if test $# -gt 0; then
# Delete the old symlinks.
rmcmd="$rm"
for linkname
do
rmcmd="$rmcmd $destdir/$linkname"
done
$show "$rmcmd"
$run $rmcmd
# ... and create new ones.
for linkname
do
test "X$dlname" = "X$linkname" && dlname=
$show "(cd $destdir && $LN_S $realname $linkname)"
$run eval "(cd $destdir && $LN_S $realname $linkname)"
done
fi
if test -n "$dlname"; then
# Install the dynamically-loadable library.
$show "$install_prog $dir/$dlname $destdir/$dlname"
$run eval "$install_prog $dir/$dlname $destdir/$dlname" || exit $?
fi
# Do each command in the postinstall commands.
lib="$destdir/$realname"
eval cmds=\"$postinstall_cmds\"
IFS="${IFS= }"; save_ifs="$IFS"; IFS=';'
for cmd in $cmds; do
IFS="$save_ifs"
$show "$cmd"
$run eval "$cmd" || exit $?
done
IFS="$save_ifs"
fi
# Install the pseudo-library for information purposes.
name=`$echo "X$file" | $Xsed -e 's%^.*/%%'`
$show "$install_prog $file $destdir/$name"
$run eval "$install_prog $file $destdir/$name" || exit $?
# Maybe install the static library, too.
test -n "$old_library" && staticlibs="$staticlibs $dir/$old_library"
;;
*.lo)
# Install (i.e. copy) a libtool object.
# Figure out destination file name, if it wasn't already specified.
if test -n "$destname"; then
destfile="$destdir/$destname"
else
destfile=`$echo "X$file" | $Xsed -e 's%^.*/%%'`
destfile="$destdir/$destfile"
fi
# Deduce the name of the destination old-style object file.
case "$destfile" in
*.lo)
staticdest=`$echo "X$destfile" | $Xsed -e 's/\.lo$/\.o/'`
;;
*.o)
staticdest="$destfile"
destfile=
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*)
$echo "$modename: cannot copy a libtool object to \`$destfile'" 1>&2
$echo "$help" 1>&2
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esac
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$run eval "$install_prog $file $destfile" || exit $?
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exit 0
;;
*)
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if (sed -e '4q' $file | egrep '^# Generated by ltmain\.sh') >/dev/null 2>&1; then
link_against_libtool_libs=
finalize_command=
# If there is no directory component, then add one.
case "$file" in
*/* | *\\*) . $file ;;
*) . ./$file ;;
esac
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$echo "$modename: invalid libtool wrapper script \`$file'" 1>&2
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if test -f "$lib"; then
# If there is no directory component, then add one.
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*) . ./$lib ;;
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$echo "$modename: warning: \`$lib' has not been installed in \`$libdir'" 1>&2
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$show "$finalize_command"
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$echo "$modename: error: relink \`$file' with the above command before installing it" 1>&2
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;;
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exit 0
;;
# libtool finish mode
finish)
modename="$modename: finish"
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echo "------------------------------------------------------------------------------"
echo "Libraries have been installed in:"
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echo " $libdir"
done
echo
echo "To link against installed libraries in a given directory, LIBDIR,"
echo "you must use the \`-LLIBDIR' flag during linking."
echo
echo " You will also need to do one of the following:"
if test -n "$shlibpath_var"; then
echo " - add LIBDIR to the \`$shlibpath_var' environment variable"
echo " during execution"
fi
if test -n "$runpath_var"; then
echo " - add LIBDIR to the \`$runpath_var' environment variable"
echo " during linking"
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if test -n "$hardcode_libdir_flag_spec"; then
libdir=LIBDIR
eval flag=\"$hardcode_libdir_flag_spec\"
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if test -f /etc/ld.so.conf; then
echo " - have your system administrator add LIBDIR to \`/etc/ld.so.conf'"
fi
echo
echo "See any operating system documentation about shared libraries for"
echo "more information, such as the ld(1) and ld.so(8) manual pages."
echo "------------------------------------------------------------------------------"
exit 0
;;
# libtool execute mode
execute)
modename="$modename: execute"
# The first argument is the command name.
cmd="$nonopt"
if test -z "$cmd"; then
$echo "$modename: you must specify a COMMAND" 1>&2
$echo "$help"
exit 1
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$echo "$modename: \`$file' is not a file" 1>&2
$echo "$help" 1>&2
exit 1
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dir=
case "$file" in
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# Check to see that this really is a libtool archive.
if (sed -e '2q' $file | egrep '^# Generated by ltmain\.sh') >/dev/null 2>&1; then :
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$echo "$modename: \`$lib' is not a valid libtool archive" 1>&2
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# Read the libtool library.
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library_names=
# If there is no directory component, then add one.
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*/* | *\\*) . $file ;;
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dir=`$echo "X$file" | $Xsed -e 's%/[^/]*$%%'`
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$echo "$modename: cannot find \`$dlname' in \`$dir' or \`$dir/$objdir'" 1>&2
exit 1
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;;
*.lo)
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;;
*)
$echo "$modename: warning \`-dlopen' is ignored for non-libtool libraries and objects" 1>&2
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;;
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# Get the absolute pathname.
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-*) ;;
*)
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*) . ./$file ;;
esac
# Transform arg to wrapped name.
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;;
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$echo "$modename: cannot exec \$cmd$args"
exit 1
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eval "\$echo \"\$shlibpath_var=\$$shlibpath_var\""
$echo "export $shlibpath_var"
$echo "$cmd$args"
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;;
# libtool uninstall mode
uninstall)
modename="$modename: uninstall"
rm="$nonopt"
files=
for arg
do
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-*) rm="$rm $arg" ;;
*) files="$files $arg" ;;
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$echo "$modename: you must specify an RM program" 1>&2
$echo "$help" 1>&2
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name=`$echo "X$file" | $Xsed -e 's%^.*/%%'`
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. $dir/$name
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rmfiles="$rmfiles $dir/$n"
test "X$n" = "X$dlname" && dlname=
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# Do each command in the postuninstall commands.
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IFS="$save_ifs"
$show "$cmd"
$run eval "$cmd"
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$show "$cmd"
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*.lo)
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$show "$rm $rmfiles"
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;;
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"")
$echo "$modename: you must specify a MODE" 1>&2
$echo "$generic_help" 1>&2
exit 1
;;
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$echo "$modename: invalid operation mode \`$mode'" 1>&2
$echo "$generic_help" 1>&2
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# We need to display help for each of the modes.
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"") $echo \
"Usage: $modename [OPTION]... [MODE-ARG]...
Provide generalized library-building support services.
-n, --dry-run display commands without modifying any files
--features display configuration information and exit
--finish same as \`--mode=finish'
--help display this help message and exit
--mode=MODE use operation mode MODE [default=inferred from MODE-ARGS]
--quiet same as \`--silent'
--silent don't print informational messages
--version print version information
MODE must be one of the following:
compile compile a source file into a libtool object
execute automatically set library path, then run a program
finish complete the installation of libtool libraries
install install libraries or executables
link create a library or an executable
uninstall remove libraries from an installed directory
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exit 0
;;
compile)
$echo \
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COMPILE-COMMAND is a command to be used in creating a \`standard' object file
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SOURCEFILE, then substituting the C source code suffix \`.c' with the
library object suffix, \`.lo'."
;;
execute)
$echo \
"Usage: $modename [OPTION]... --mode=execute COMMAND [ARGS]...
Automatically set library path, then run a program.
This mode accepts the following additional options:
-dlopen FILE add the directory containing FILE to the library path
This mode sets the library path environment variable according to \`-dlopen'
flags.
If any of the ARGS are libtool executable wrappers, then they are translated
into their corresponding uninstalled binary, and any of their required library
directories are added to the library path.
Then, COMMAND is executed, with ARGS as arguments."
;;
finish)
$echo \
"Usage: $modename [OPTION]... --mode=finish [LIBDIR]...
Complete the installation of libtool libraries.
Each LIBDIR is a directory that contains libtool libraries.
The commands that this mode executes may require superuser privileges. Use
the \`--dry-run' option if you just want to see what would be executed."
;;
install)
$echo \
"Usage: $modename [OPTION]... --mode=install INSTALL-COMMAND...
Install executables or libraries.
INSTALL-COMMAND is the installation command. The first component should be
either the \`install' or \`cp' program.
The rest of the components are interpreted as arguments to that command (only
BSD-compatible install options are recognized)."
;;
link)
$echo \
"Usage: $modename [OPTION]... --mode=link LINK-COMMAND...
Link object files or libraries together to form another library, or to
create an executable program.
LINK-COMMAND is a command using the C compiler that you would use to create
a program from several object files.
The following components of LINK-COMMAND are treated specially:
-all-static do not do any dynamic linking at all
-dlopen FILE \`-dlpreopen' FILE if it cannot be dlopened at runtime
-dlpreopen FILE link in FILE and add its symbols to dld_preloaded_symbols
-export-dynamic allow symbols from OUTPUT-FILE to be resolved with dlsym(3)
-LLIBDIR search LIBDIR for required installed libraries
-lNAME OUTPUT-FILE requires the installed library libNAME
-no-undefined declare that a library does not refer to external symbols
-o OUTPUT-FILE create OUTPUT-FILE from the specified objects
-release RELEASE specify package release information
-rpath LIBDIR the created library will eventually be installed in LIBDIR
-static do not do any dynamic linking of libtool libraries
-version-info CURRENT[:REVISION[:AGE]]
specify library version info [each variable defaults to 0]
All other options (arguments beginning with \`-') are ignored.
Every other argument is treated as a filename. Files ending in \`.la' are
treated as uninstalled libtool libraries, other files are standard or library
object files.
If the OUTPUT-FILE ends in \`.la', then a libtool library is created, only
library objects (\`.lo' files) may be specified, and \`-rpath' is required.
If OUTPUT-FILE ends in \`.a', then a standard library is created using \`ar'
and \`ranlib'.
If OUTPUT-FILE ends in \`.lo' or \`.o', then a reloadable object file is
created, otherwise an executable program is created."
;;
uninstall)
$echo
"Usage: $modename [OPTION]... --mode=uninstall RM [RM-OPTION]... FILE...
Remove libraries from an installation directory.
RM is the name of the program to use to delete files associated with each FILE
(typically \`/bin/rm'). RM-OPTIONS are options (such as \`-f') to be passed
to RM.
If FILE is a libtool library, all the files associated with it are deleted.
Otherwise, only FILE itself is deleted using RM."
;;
*)
$echo "$modename: invalid operation mode \`$mode'" 1>&2
$echo "$help" 1>&2
exit 1
;;
esac
echo
$echo "Try \`$modename --help' for more information about other modes."
exit 0
# Local Variables:
# mode:shell-script
# sh-indentation:2
# End:
| Shell | 5 | OsmanDere/metasploit-framework | external/source/vncdll/winvnc/libjpeg/ltmain.sh | [
"BSD-2-Clause",
"BSD-3-Clause"
] |
# TODO: Translation updated at 2022-01-11 21:45
translate english strings:
# game/scripts/pong_minigame.rpy:196
old "Player"
new "Player"
# game/scripts/pong_minigame.rpy:203
old "Computer"
new "Computer"
# game/scripts/pong_minigame.rpy:211
old "Click to Begin"
new "Click to Begin"
| Ren'Py | 2 | googlebleh/LearnToCodeRPG | game/tl/english/scripts/pong_minigame.rpy | [
"BSD-3-Clause"
] |
<?xml version="1.0" encoding="UTF-8"?>
<!-- generated with COPASI 4.28 (Build 226) (http://www.copasi.org) at 2020-06-15T12:51:28Z -->
<?oxygen RNGSchema="http://www.copasi.org/static/schema/CopasiML.rng" type="xml"?>
<COPASI xmlns="http://www.copasi.org/static/schema" versionMajor="4" versionMinor="28" versionDevel="226" copasiSourcesModified="0">
<ListOfFunctions>
<Function key="Function_13" name="Mass action (irreversible)" type="MassAction" reversible="false">
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<Comment>
<body xmlns="http://www.w3.org/1999/xhtml">
<b>Mass action rate law for irreversible reactions</b>
<p>
Reaction scheme where the products are created from the reactants and the change of a product quantity is proportional to the product of reactant activities. The reaction scheme does not include any reverse process that creates the reactants from the products. The change of a product quantity is proportional to the quantity of one reactant.
</p>
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</ListOfFunctions>
<Model key="Model_0" name="SIDARTHE Connecticut Model 9" simulationType="time" timeUnit="d" volumeUnit="1" areaUnit="1" lengthUnit="1" quantityUnit="#" type="deterministic" avogadroConstant="6.0221408570000002e+23">
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<dcterms:description>Giordano, G., Blanchini, F., Bruno, R. et al. Modelling the COVID-19 epidemic and implementation of population-wide interventions in Italy. Nat Med (2020).</dcterms:description>
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<body xmlns="http://www.w3.org/1999/xhtml"><h1>SIDARTHE model of Connecticut COVID-19 epidemic</h1>
<p>This model is an implementation of the model described in a the paper by <a href="https://doi.org/10.1038/s41591-020-0883-7">Giordano et al. doi:10.1038/s41591-020-0883-7</a> calibrated with Connecticut data. </p>
<p>In this model we assume that only the R (critical) pool are hospitalized; this leads to a different interpretation of some parameters. This model does not contain an exposed compartment (E in SEIR), which can make the interpretation of some parameters less comparable to other models.</p>
<p>Events/Interventions:</p>
<ul>
<li>Day 0 - March 8, first day with diagnosed > 0.</li>
<li>Day 1- March 9, tests at an average 17.1 per day</li>
<li>Day 8 - March 16, policy of max 50 people gatherings, closed gyms and theaters; restaurants and bars takeout only. This reduces the infection parameters</li>
<li>Day 10 - March 18, tests increase so does parameter theta</li>
<li>Day 15 - March 23, shelter-in-place policy declared. Infection parameters reduce again.</li>
<li>Day 19 - March 27, tests increase so does parameter theta</li>
<li>Day 32 - April 9, tests increase so does parameter theta</li>
<li>Day 60 - May 7, tests increase so does parameter theta</li>
<li>Day 65 - May 12, tests increase so does parameter theta</li>
<li>Day 73 - May 20, simulate relaxation of infection parameters by 50%</li>
<li>Day 75 - May 22, tests decrease so does parameter theta; now testing some asymptomatic, epsilon > 0</li>
</ul>
<p xmlns:dct="http://purl.org/dc/terms/">
<a rel="license" href="http://creativecommons.org/publicdomain/zero/1.0/">
CC0 license
</a>
<br />
To the extent possible under law,
<a rel="dct:publisher" href="http://www.comp-sys-bio.org">
<span property="dct:title">Pedro Mendes</span></a>
has waived all copyright and related or neighboring rights to
<span property="dct:title">SIDARTHE-CT_Model9.cps</span>.
</p>
</body>
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<dcterms:W3CDTF>2020-03-24T14:46:56Z</dcterms:W3CDTF>
</rdf:Description>
</dcterms:created>
</rdf:Description>
</rdf:RDF>
</MiriamAnnotation>
<ListOfSubstrates>
<Substrate metabolite="Metabolite_2" stoichiometry="1"/>
</ListOfSubstrates>
<ListOfProducts>
<Product metabolite="Metabolite_7" stoichiometry="1"/>
</ListOfProducts>
<ListOfConstants>
<Constant key="Parameter_5029" name="k1" value="0.0664769"/>
</ListOfConstants>
<KineticLaw function="Function_13" unitType="Default" scalingCompartment="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment]">
<ListOfCallParameters>
<CallParameter functionParameter="FunctionParameter_80">
<SourceParameter reference="ModelValue_13"/>
</CallParameter>
<CallParameter functionParameter="FunctionParameter_81">
<SourceParameter reference="Metabolite_2"/>
</CallParameter>
</ListOfCallParameters>
</KineticLaw>
</Reaction>
<Reaction key="Reaction_13" name="healing_A" reversible="false" fast="false" addNoise="false">
<MiriamAnnotation>
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<dcterms:created>
<rdf:Description>
<dcterms:W3CDTF>2020-03-24T14:47:19Z</dcterms:W3CDTF>
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</rdf:RDF>
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<ListOfSubstrates>
<Substrate metabolite="Metabolite_3" stoichiometry="1"/>
</ListOfSubstrates>
<ListOfProducts>
<Product metabolite="Metabolite_7" stoichiometry="1"/>
</ListOfProducts>
<ListOfConstants>
<Constant key="Parameter_5032" name="k1" value="0.0664769"/>
</ListOfConstants>
<KineticLaw function="Function_13" unitType="Default" scalingCompartment="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment]">
<ListOfCallParameters>
<CallParameter functionParameter="FunctionParameter_80">
<SourceParameter reference="ModelValue_8"/>
</CallParameter>
<CallParameter functionParameter="FunctionParameter_81">
<SourceParameter reference="Metabolite_3"/>
</CallParameter>
</ListOfCallParameters>
</KineticLaw>
</Reaction>
<Reaction key="Reaction_14" name="healing_R" reversible="false" fast="false" addNoise="false">
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<rdf:Description>
<dcterms:W3CDTF>2020-03-24T14:47:31Z</dcterms:W3CDTF>
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</rdf:RDF>
</MiriamAnnotation>
<ListOfSubstrates>
<Substrate metabolite="Metabolite_4" stoichiometry="1"/>
</ListOfSubstrates>
<ListOfProducts>
<Product metabolite="Metabolite_7" stoichiometry="1"/>
</ListOfProducts>
<ListOfConstants>
<Constant key="Parameter_5033" name="k1" value="0.0664769"/>
</ListOfConstants>
<KineticLaw function="Function_13" unitType="Default" scalingCompartment="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment]">
<ListOfCallParameters>
<CallParameter functionParameter="FunctionParameter_80">
<SourceParameter reference="ModelValue_12"/>
</CallParameter>
<CallParameter functionParameter="FunctionParameter_81">
<SourceParameter reference="Metabolite_4"/>
</CallParameter>
</ListOfCallParameters>
</KineticLaw>
</Reaction>
<Reaction key="Reaction_15" name="healing_T" reversible="false" fast="false" addNoise="false">
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<dcterms:created>
<rdf:Description>
<dcterms:W3CDTF>2020-03-24T14:47:52Z</dcterms:W3CDTF>
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</MiriamAnnotation>
<ListOfSubstrates>
<Substrate metabolite="Metabolite_5" stoichiometry="1"/>
</ListOfSubstrates>
<ListOfProducts>
<Product metabolite="Metabolite_7" stoichiometry="1"/>
</ListOfProducts>
<ListOfConstants>
<Constant key="Parameter_5067" name="k1" value="0.0557681"/>
</ListOfConstants>
<KineticLaw function="Function_13" unitType="Default" scalingCompartment="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment]">
<ListOfCallParameters>
<CallParameter functionParameter="FunctionParameter_80">
<SourceParameter reference="ModelValue_14"/>
</CallParameter>
<CallParameter functionParameter="FunctionParameter_81">
<SourceParameter reference="Metabolite_5"/>
</CallParameter>
</ListOfCallParameters>
</KineticLaw>
</Reaction>
</ListOfReactions>
<ListOfEvents>
<Event key="Event_0" name="Day 15" fireAtInitialTime="0" persistentTrigger="0">
<MiriamAnnotation>
<rdf:RDF xmlns:dcterms="http://purl.org/dc/terms/" xmlns:rdf="http://www.w3.org/1999/02/22-rdf-syntax-ns#">
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<dcterms:created>
<rdf:Description>
<dcterms:W3CDTF>2020-03-24T18:33:56Z</dcterms:W3CDTF>
</rdf:Description>
</dcterms:created>
</rdf:Description>
</rdf:RDF>
</MiriamAnnotation>
<Comment>
Shelter-in-place order, no gatherings more than 5 people
</Comment>
<TriggerExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Reference=Time> > 15
</TriggerExpression>
<ListOfAssignments>
<Assignment target="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha]" targetKey="ModelValue_0">
<Expression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=Value>*<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[day15x],Reference=Value>
</Expression>
</Assignment>
<Assignment target="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma]" targetKey="ModelValue_2">
<Expression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma],Reference=Value>*<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[day15x],Reference=Value>
</Expression>
</Assignment>
<Assignment target="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[theta]" targetKey="ModelValue_7">
<Expression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[theta],Reference=InitialValue>*50
</Expression>
</Assignment>
</ListOfAssignments>
</Event>
<Event key="Event_1" name="Day 08" fireAtInitialTime="0" persistentTrigger="0">
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<dcterms:created>
<rdf:Description>
<dcterms:W3CDTF>2020-03-26T17:37:25Z</dcterms:W3CDTF>
</rdf:Description>
</dcterms:created>
</rdf:Description>
</rdf:RDF>
</MiriamAnnotation>
<Comment>
>50 people gatherings banned; restaurants + bars in take-out, sports events banned
</Comment>
<TriggerExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Reference=Time> > 8
</TriggerExpression>
<ListOfAssignments>
<Assignment target="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha]" targetKey="ModelValue_0">
<Expression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=Value>*<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[day8x],Reference=Value>
</Expression>
</Assignment>
<Assignment target="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma]" targetKey="ModelValue_2">
<Expression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma],Reference=Value>*<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[day8x],Reference=Value>
</Expression>
</Assignment>
</ListOfAssignments>
</Event>
<Event key="Event_2" name="Day 11" fireAtInitialTime="0" persistentTrigger="0">
<MiriamAnnotation>
<rdf:RDF xmlns:dcterms="http://purl.org/dc/terms/" xmlns:rdf="http://www.w3.org/1999/02/22-rdf-syntax-ns#">
<rdf:Description rdf:about="#Event_2">
<dcterms:created>
<rdf:Description>
<dcterms:W3CDTF>2020-03-30T17:24:04Z</dcterms:W3CDTF>
</rdf:Description>
</dcterms:created>
</rdf:Description>
</rdf:RDF>
</MiriamAnnotation>
<TriggerExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Reference=Time> > 10
</TriggerExpression>
<ListOfAssignments>
<Assignment target="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[theta]" targetKey="ModelValue_7">
<Expression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[theta],Reference=InitialValue>*20
</Expression>
</Assignment>
</ListOfAssignments>
</Event>
<Event key="Event_3" name="T peak detection" fireAtInitialTime="0" persistentTrigger="0">
<MiriamAnnotation>
<rdf:RDF xmlns:dcterms="http://purl.org/dc/terms/" xmlns:rdf="http://www.w3.org/1999/02/22-rdf-syntax-ns#">
<rdf:Description rdf:about="#Event_3">
<dcterms:created>
<rdf:Description>
<dcterms:W3CDTF>2020-04-02T01:20:18Z</dcterms:W3CDTF>
</rdf:Description>
</dcterms:created>
</rdf:Description>
</rdf:RDF>
</MiriamAnnotation>
<TriggerExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[T],Reference=Rate> < 0
</TriggerExpression>
<ListOfAssignments>
<Assignment target="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tpeak]" targetKey="ModelValue_46">
<Expression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[T],Reference=Concentration>
</Expression>
</Assignment>
<Assignment target="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tpeaktime]" targetKey="ModelValue_47">
<Expression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Reference=Time>
</Expression>
</Assignment>
</ListOfAssignments>
</Event>
<Event key="Event_4" name="T no new case" fireAtInitialTime="0" persistentTrigger="0">
<MiriamAnnotation>
<rdf:RDF xmlns:dcterms="http://purl.org/dc/terms/" xmlns:rdf="http://www.w3.org/1999/02/22-rdf-syntax-ns#">
<rdf:Description rdf:about="#Event_4">
<dcterms:created>
<rdf:Description>
<dcterms:W3CDTF>2020-04-02T01:20:18Z</dcterms:W3CDTF>
</rdf:Description>
</dcterms:created>
</rdf:Description>
</rdf:RDF>
</MiriamAnnotation>
<TriggerExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[New diagnosed],Reference=Value> < 1
</TriggerExpression>
<ListOfAssignments>
<Assignment target="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tnonew]" targetKey="ModelValue_50">
<Expression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Reference=Time>
</Expression>
</Assignment>
</ListOfAssignments>
</Event>
<Event key="Event_5" name="Day 21" fireAtInitialTime="0" persistentTrigger="0">
<MiriamAnnotation>
<rdf:RDF xmlns:dcterms="http://purl.org/dc/terms/" xmlns:rdf="http://www.w3.org/1999/02/22-rdf-syntax-ns#">
<rdf:Description rdf:about="#Event_5">
<dcterms:created>
<rdf:Description>
<dcterms:W3CDTF>2020-03-30T17:24:04Z</dcterms:W3CDTF>
</rdf:Description>
</dcterms:created>
</rdf:Description>
</rdf:RDF>
</MiriamAnnotation>
<TriggerExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Reference=Time> > 20
</TriggerExpression>
<ListOfAssignments>
<Assignment target="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[theta]" targetKey="ModelValue_7">
<Expression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[theta],Reference=InitialValue>*95
</Expression>
</Assignment>
</ListOfAssignments>
</Event>
<Event key="Event_6" name="Day 32" fireAtInitialTime="0" persistentTrigger="0">
<MiriamAnnotation>
<rdf:RDF xmlns:dcterms="http://purl.org/dc/terms/" xmlns:rdf="http://www.w3.org/1999/02/22-rdf-syntax-ns#">
<rdf:Description rdf:about="#Event_6">
<dcterms:created>
<rdf:Description>
<dcterms:W3CDTF>2020-03-30T17:24:04Z</dcterms:W3CDTF>
</rdf:Description>
</dcterms:created>
</rdf:Description>
</rdf:RDF>
</MiriamAnnotation>
<TriggerExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Reference=Time> > 31
</TriggerExpression>
<ListOfAssignments>
<Assignment target="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[theta]" targetKey="ModelValue_7">
<Expression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[theta],Reference=InitialValue>*150
</Expression>
</Assignment>
</ListOfAssignments>
</Event>
<Event key="Event_7" name="Day 73 ReOpenStage 4" fireAtInitialTime="0" persistentTrigger="0">
<MiriamAnnotation>
<rdf:RDF xmlns:dcterms="http://purl.org/dc/terms/" xmlns:rdf="http://www.w3.org/1999/02/22-rdf-syntax-ns#">
<rdf:Description rdf:about="#Event_6">
<dcterms:created>
<rdf:Description>
<dcterms:W3CDTF>2020-03-24T18:33:56Z</dcterms:W3CDTF>
</rdf:Description>
</dcterms:created>
</rdf:Description>
</rdf:RDF>
</MiriamAnnotation>
<Comment>
Shelter-in-place order, no gatherings more than 5 people
</Comment>
<TriggerExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Reference=Time> > 73
</TriggerExpression>
<ListOfAssignments>
<Assignment target="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha]" targetKey="ModelValue_0">
<Expression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=Value>+(<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=Value>)*<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_stage4],Reference=Value>
</Expression>
</Assignment>
<Assignment target="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma]" targetKey="ModelValue_2">
<Expression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma],Reference=Value>+(<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma],Reference=InitialValue>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma],Reference=Value>)*<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_stage4],Reference=Value>
</Expression>
</Assignment>
<Assignment target="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[R(73)]" targetKey="ModelValue_57">
<Expression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[R0],Reference=Value>
</Expression>
</Assignment>
<Assignment target="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ImmuneRatio(73)]" targetKey="ModelValue_61">
<Expression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ImmuneRatio],Reference=Value>
</Expression>
</Assignment>
<Assignment target="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[InfectedRatio(73)]" targetKey="ModelValue_62">
<Expression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[InfectedRatio],Reference=Value>
</Expression>
</Assignment>
</ListOfAssignments>
</Event>
<Event key="Event_8" name="Day 60" fireAtInitialTime="0" persistentTrigger="0">
<MiriamAnnotation>
<rdf:RDF xmlns:dcterms="http://purl.org/dc/terms/" xmlns:rdf="http://www.w3.org/1999/02/22-rdf-syntax-ns#">
<rdf:Description rdf:about="#Event_8">
<dcterms:created>
<rdf:Description>
<dcterms:W3CDTF>2020-05-12T11:14:48Z</dcterms:W3CDTF>
</rdf:Description>
</dcterms:created>
</rdf:Description>
</rdf:RDF>
</MiriamAnnotation>
<TriggerExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Reference=Time> > 59
</TriggerExpression>
<ListOfAssignments>
<Assignment target="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[theta]" targetKey="ModelValue_7">
<Expression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[theta],Reference=InitialValue>*256
</Expression>
</Assignment>
</ListOfAssignments>
</Event>
<Event key="Event_9" name="Day 67" fireAtInitialTime="0" persistentTrigger="0">
<MiriamAnnotation>
<rdf:RDF xmlns:dcterms="http://purl.org/dc/terms/" xmlns:rdf="http://www.w3.org/1999/02/22-rdf-syntax-ns#">
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<dcterms:created>
<rdf:Description>
<dcterms:W3CDTF>2020-05-12T11:14:48Z</dcterms:W3CDTF>
</rdf:Description>
</dcterms:created>
</rdf:Description>
</rdf:RDF>
</MiriamAnnotation>
<TriggerExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Reference=Time> > 66
</TriggerExpression>
<ListOfAssignments>
<Assignment target="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[theta]" targetKey="ModelValue_7">
<Expression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[theta],Reference=InitialValue>*350
</Expression>
</Assignment>
</ListOfAssignments>
</Event>
<Event key="Event_10" name="Day 75" fireAtInitialTime="0" persistentTrigger="0">
<MiriamAnnotation>
<rdf:RDF xmlns:dcterms="http://purl.org/dc/terms/" xmlns:rdf="http://www.w3.org/1999/02/22-rdf-syntax-ns#">
<rdf:Description rdf:about="#Event_8">
<dcterms:created>
<rdf:Description>
<dcterms:W3CDTF>2020-05-12T11:14:48Z</dcterms:W3CDTF>
</rdf:Description>
</dcterms:created>
</rdf:Description>
</rdf:RDF>
</MiriamAnnotation>
<TriggerExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Reference=Time> > 74
</TriggerExpression>
<ListOfAssignments>
<Assignment target="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[epsilon]" targetKey="ModelValue_4">
<Expression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_epsilon],Reference=InitialValue>
</Expression>
</Assignment>
</ListOfAssignments>
</Event>
</ListOfEvents>
<ListOfModelParameterSets activeSet="ModelParameterSet_0">
<ModelParameterSet key="ModelParameterSet_0" name="Initial State">
<MiriamAnnotation>
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<rdf:Description rdf:about="#ModelParameterSet_0">
<dcterms:created>
<rdf:Description>
<dcterms:W3CDTF>2020-06-15T12:02:59Z</dcterms:W3CDTF>
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</dcterms:created>
</rdf:Description>
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<ModelParameterGroup cn="String=Initial Time" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9" value="0" type="Model" simulationType="time"/>
</ModelParameterGroup>
<ModelParameterGroup cn="String=Initial Compartment Sizes" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment]" value="1" type="Compartment" simulationType="fixed"/>
</ModelParameterGroup>
<ModelParameterGroup cn="String=Initial Species Values" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[I]" value="1" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[S]" value="3572663.9999998407" type="Species" simulationType="reactions">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Population],Reference=InitialValue>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[I],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[D],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[A],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[R],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[T],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[H],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[E],Reference=InitialConcentration>
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[D]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[A]" value="1.5928576091280386e-07" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[R]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[T]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[E]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[H]" value="0" type="Species" simulationType="reactions"/>
</ModelParameterGroup>
<ModelParameterGroup cn="String=Initial Global Quantities" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha]" value="1.0346365507295143" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta]" value="0.020692731014590286" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.02
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma]" value="0.51731827536475716" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.5
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta]" value="0.031039096521885429" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.03
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[epsilon]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[zeta]" value="0.014551939904496592" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[eta]" value="0.014551939904496592" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[theta]" value="2.5159130513979989e-05" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[kappa]" value="0.066477631006351928" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[lambda]" value="0.066477631006351928" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[mu]" value="0.001" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[nu]" value="0.001" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[xi]" value="0.066477631006351928" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[rho]" value="0.066477631006351928" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[sigma]" value="0.056471154899469606" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[tau]" value="0.04724367719790034" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[DRT]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[IDARTHE]" value="1.0000001592857608" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[IDART]" value="1.0000001592857608" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Recovered]" value="0" type="ModelValue" simulationType="ode"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Diagnosed Cumulative infected]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r1]" value="0.081029570910848517" type="ModelValue" simulationType="assignment"/>
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Perceived CFR]" value="NaN" type="ModelValue" simulationType="assignment"/>
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha_pop]" value="2.8959797538518565e-07" type="ModelValue" simulationType="assignment"/>
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta_pop]" value="8.6879392615555703e-09" type="ModelValue" simulationType="assignment"/>
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<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_delta],Reference=InitialValue>
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<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha_pop],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_D],ParameterGroup=Parameters,Parameter=k1" value="5.7919595077037127e-09" type="ReactionParameter" simulationType="assignment">
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<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta_pop],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_A]" type="Reaction">
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<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma_pop],Reference=InitialValue>
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<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta_pop],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_I]" type="Reaction">
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<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[epsilon],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_I],ParameterGroup=Parameters,Parameter=k1" value="0.014551939904496592" type="ReactionParameter" simulationType="assignment">
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<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[zeta],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_D]" type="Reaction">
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<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[eta],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_A]" type="Reaction">
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<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[theta],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_A],ParameterGroup=Parameters,Parameter=k1" value="0.001" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[mu],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_R],ParameterGroup=Parameters,Parameter=k1" value="0.001" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[nu],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[death]" type="Reaction">
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<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[tau],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_I],ParameterGroup=Parameters,Parameter=k1" value="0.066477631006351928" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[lambda],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_D]" type="Reaction">
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<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[rho],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_A]" type="Reaction">
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<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[kappa],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_R]" type="Reaction">
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<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[xi],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_T]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_T],ParameterGroup=Parameters,Parameter=k1" value="0.056471154899469606" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[sigma],Reference=InitialValue>
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<ModelParameterSet key="ModelParameterSet_3" name="Model7 - 5/11">
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<ModelParameterGroup cn="String=Initial Time" type="Group">
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<ModelParameterGroup cn="String=Initial Compartment Sizes" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment]" value="1" type="Compartment" simulationType="fixed"/>
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<ModelParameterGroup cn="String=Initial Species Values" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[I]" value="1.0000000000003981" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[S]" value="3572663.9999999995" type="Species" simulationType="reactions">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Population],Reference=InitialValue>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[I],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[D],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[A],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[R],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[T],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[E],Reference=InitialConcentration>
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[D]" value="0" type="Species" simulationType="reactions"/>
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<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.02
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<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.5
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<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.03
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Recovered]" value="0" type="ModelValue" simulationType="ode"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Diagnosed Cumulative infected]" value="0" type="ModelValue" simulationType="assignment"/>
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha_pop]" value="3.5179543054072117e-07" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta_pop]" value="7.0359086108144228e-09" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta_pop]" value="1.0553862916221633e-08" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[scale]" value="0.78222655465241187" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_epsilon]" value="0.29999999999999999" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_theta]" value="0.0054878294478546081" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_mu]" value="0.059999999999999998" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_nu]" value="0.059999999999999998" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[day8x]" value="0.99999999692307173" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[day15x]" value="0.75878840237194067" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_lambda]" value="0.22155041982369297" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_kappa]" value="0.11077520991184649" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_sigma]" value="0.11077520991184649" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_xi]" value="0.11077520991184649" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_rho]" value="0.22155041982369297" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tpeak]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tpeaktime]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[New cases]" value="1.2568468703671547" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[New diagnosed]" value="1.8816479362346231e-12" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tnonew]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tot_reduction]" value="0.75878840003720316" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ImmuneRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ApplyRelaxationMay1]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[HiddenRatio]" value="0" type="ModelValue" simulationType="assignment"/>
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_stage4]" value="0" type="ModelValue" simulationType="fixed"/>
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_I],ParameterGroup=Parameters,Parameter=k1" value="3.5179543054072117e-07" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha_pop],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_D],ParameterGroup=Parameters,Parameter=k1" value="7.0359086108144228e-09" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta_pop],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_A],ParameterGroup=Parameters,Parameter=k1" value="1.7589771527036058e-07" type="ReactionParameter" simulationType="assignment">
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<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma_pop],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_R],ParameterGroup=Parameters,Parameter=k1" value="1.0553862916221633e-08" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta_pop],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_I],ParameterGroup=Parameters,Parameter=k1" value="0" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[epsilon],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_I],ParameterGroup=Parameters,Parameter=k1" value="0.59999999987223873" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[zeta],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_D],ParameterGroup=Parameters,Parameter=k1" value="0.59999999987223873" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[eta],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_A],ParameterGroup=Parameters,Parameter=k1" value="0.0038228191289422175" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[theta],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_A],ParameterGroup=Parameters,Parameter=k1" value="0.084201963843088742" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[mu],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_R],ParameterGroup=Parameters,Parameter=k1" value="0.084201963843088742" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[nu],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[death]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[death],ParameterGroup=Parameters,Parameter=k1" value="0.045446930290745896" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[tau],Reference=InitialValue>
</InitialExpression>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_I],ParameterGroup=Parameters,Parameter=k1" value="0.85893115840552359" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[lambda],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_D],ParameterGroup=Parameters,Parameter=k1" value="0.85893115840552359" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[rho],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_A],ParameterGroup=Parameters,Parameter=k1" value="0.01000000006083206" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[kappa],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_R],ParameterGroup=Parameters,Parameter=k1" value="0.22075541610851884" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[xi],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_T]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_T],ParameterGroup=Parameters,Parameter=k1" value="0.1261836135522455" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[sigma],Reference=InitialValue>
</InitialExpression>
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<ModelParameterSet key="ModelParameterSet_4" name="Model7 - 5/13">
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<ModelParameterGroup cn="String=Initial Time" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9" value="0" type="Model" simulationType="time"/>
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<ModelParameterGroup cn="String=Initial Compartment Sizes" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment]" value="1" type="Compartment" simulationType="fixed"/>
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<ModelParameterGroup cn="String=Initial Species Values" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[I]" value="1" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[S]" value="3572664" type="Species" simulationType="reactions">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Population],Reference=InitialValue>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[I],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[D],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[A],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[R],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[T],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[E],Reference=InitialConcentration>
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[D]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[A]" value="5.1906035920000006e-21" type="Species" simulationType="reactions"/>
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<ModelParameterGroup cn="String=Initial Global Quantities" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha]" value="1.2577356304770004" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta]" value="0.025154712609540008" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.02
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma]" value="0.62886781523850022" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.5
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta]" value="0.03773206891431001" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.03
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[epsilon]" value="0" type="ModelValue" simulationType="fixed"/>
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[eta]" value="0.59994113737973997" type="ModelValue" simulationType="assignment"/>
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[kappa]" value="0.01" type="ModelValue" simulationType="fixed"/>
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[nu]" value="0.084749924708080279" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[xi]" value="0.19332134191562012" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[rho]" value="0.85504661278130212" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[sigma]" value="0.13898930761472852" type="ModelValue" simulationType="fixed"/>
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[DRT]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[IDARTHE]" value="1" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[IDART]" value="1" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Recovered]" value="0" type="ModelValue" simulationType="ode"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Diagnosed Cumulative infected]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r1]" value="1.4549877501610422" type="ModelValue" simulationType="assignment"/>
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Perceived CFR]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[CFR]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[R0]" value="3.5000000017031763" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma_pop]" value="1.7602204943326625e-07" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Population]" value="3572665" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha_pop]" value="3.520440988665325e-07" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta_pop]" value="7.04088197733065e-09" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta_pop]" value="1.0561322965995975e-08" type="ModelValue" simulationType="assignment"/>
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_mu]" value="0.059999999999999998" type="ModelValue" simulationType="assignment"/>
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[day8x]" value="0.99999999560602193" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[day15x]" value="0.74888079421848353" type="ModelValue" simulationType="fixed"/>
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_kappa]" value="0.11077520991184649" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_sigma]" value="0.11077520991184649" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_xi]" value="0.11077520991184649" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_rho]" value="0.22155041982369297" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tpeak]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tpeaktime]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[New cases]" value="1.2577352784329014" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[New diagnosed]" value="1.9283834675777372e-23" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tnonew]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tot_reduction]" value="0.74888079092791771" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ImmuneRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ApplyRelaxationMay1]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[HiddenRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[InfectedRatio]" value="2.79903097547629e-07" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_stage4]" value="0.5" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[R(73)]" value="0" type="ModelValue" simulationType="fixed"/>
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<ModelParameterGroup cn="String=Kinetic Parameters" type="Group">
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_I],ParameterGroup=Parameters,Parameter=k1" value="3.520440988665325e-07" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha_pop],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_D],ParameterGroup=Parameters,Parameter=k1" value="7.04088197733065e-09" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta_pop],Reference=InitialValue>
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</ModelParameterGroup>
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_A],ParameterGroup=Parameters,Parameter=k1" value="1.7602204943326625e-07" type="ReactionParameter" simulationType="assignment">
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<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma_pop],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_R]" type="Reaction">
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<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta_pop],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_I]" type="Reaction">
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<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[epsilon],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_I],ParameterGroup=Parameters,Parameter=k1" value="0.59994113737973997" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[zeta],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_D]" type="Reaction">
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<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[eta],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_A]" type="Reaction">
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<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[theta],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_A]" type="Reaction">
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<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[mu],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_R],ParameterGroup=Parameters,Parameter=k1" value="0.084749924708080279" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[nu],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[death]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[death],ParameterGroup=Parameters,Parameter=k1" value="0.045443449556023252" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[tau],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_I],ParameterGroup=Parameters,Parameter=k1" value="0.85504661278130212" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[lambda],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_D]" type="Reaction">
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<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[rho],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_A]" type="Reaction">
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<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[kappa],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_R]" type="Reaction">
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<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[xi],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_T]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_T],ParameterGroup=Parameters,Parameter=k1" value="0.13898930761472852" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[sigma],Reference=InitialValue>
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<ModelParameterSet key="ModelParameterSet_5" name="Model8 - 5/15">
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<ModelParameterGroup cn="String=Initial Compartment Sizes" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment]" value="1" type="Compartment" simulationType="fixed"/>
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<ModelParameterGroup cn="String=Initial Species Values" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[I]" value="1.0000000050420332" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[S]" value="3572663.9999999534" type="Species" simulationType="reactions">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Population],Reference=InitialValue>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[I],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[D],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[A],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[R],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[T],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[E],Reference=InitialConcentration>
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[D]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[A]" value="4.1436557264709413e-08" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[R]" value="0" type="Species" simulationType="reactions"/>
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<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.02
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<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.5
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<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.03
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Diagnosed Cumulative infected]" value="0" type="ModelValue" simulationType="assignment"/>
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<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_delta],Reference=InitialValue>
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_gamma]" value="0.08558336141802525" type="ModelValue" simulationType="fixed"/>
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<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha_pop],Reference=InitialValue>
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<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta_pop],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_I]" type="Reaction">
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<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[epsilon],Reference=InitialValue>
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_I],ParameterGroup=Parameters,Parameter=k1" value="1.4128581253654238" type="ReactionParameter" simulationType="assignment">
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<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[zeta],Reference=InitialValue>
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<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[eta],Reference=InitialValue>
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_A],ParameterGroup=Parameters,Parameter=k1" value="0.0039497447658762095" type="ReactionParameter" simulationType="assignment">
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<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[theta],Reference=InitialValue>
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<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[mu],Reference=InitialValue>
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<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[nu],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[death]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[death],ParameterGroup=Parameters,Parameter=k1" value="0.045580187094399233" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[tau],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_I],ParameterGroup=Parameters,Parameter=k1" value="0.15279598398607991" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[lambda],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_D],ParameterGroup=Parameters,Parameter=k1" value="0.15279598398607991" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[rho],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_A],ParameterGroup=Parameters,Parameter=k1" value="0.15631740358204541" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[kappa],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_R],ParameterGroup=Parameters,Parameter=k1" value="0.15631740358204541" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[xi],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_T]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_T],ParameterGroup=Parameters,Parameter=k1" value="0.15631740358204541" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[sigma],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
</ModelParameterGroup>
</ModelParameterSet>
<ModelParameterSet key="ModelParameterSet_6" name="Model8 - 5/17">
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<dcterms:W3CDTF>2020-05-15T13:29:57Z</dcterms:W3CDTF>
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<ModelParameterGroup cn="String=Initial Time" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9" value="0" type="Model" simulationType="time"/>
</ModelParameterGroup>
<ModelParameterGroup cn="String=Initial Compartment Sizes" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment]" value="1" type="Compartment" simulationType="fixed"/>
</ModelParameterGroup>
<ModelParameterGroup cn="String=Initial Species Values" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[I]" value="1.0000000000007512" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[S]" value="3572664" type="Species" simulationType="reactions">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Population],Reference=InitialValue>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[I],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[D],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[A],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[R],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[T],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[E],Reference=InitialConcentration>
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[D]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[A]" value="2.4013788587527733e-14" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[R]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[T]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[E]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[H]" value="0" type="Species" simulationType="reactions"/>
</ModelParameterGroup>
<ModelParameterGroup cn="String=Initial Global Quantities" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha]" value="1.0049424202726598" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta]" value="0.020098848405453198" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.02
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma]" value="0.50247121013632989" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.5
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta]" value="0.030148272608179792" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.03
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[epsilon]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[zeta]" value="1.2781363580683676" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[eta]" value="1.2781363580683676" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[theta]" value="0.0042461717467953287" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[kappa]" value="0.15719019378432267" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[lambda]" value="0.15304363891039099" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[mu]" value="0.088424079597809083" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[nu]" value="0.088424079597809083" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[xi]" value="0.15719019378432267" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[rho]" value="0.15304363891039099" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[sigma]" value="0.15719019378432267" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[tau]" value="0.045715672397912674" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[DRT]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[IDARTHE]" value="1.0000000000007752" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[IDART]" value="1.0000000000007752" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Recovered]" value="0" type="ModelValue" simulationType="ode"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Diagnosed Cumulative infected]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r1]" value="1.4311799969787586" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r2]" value="1.4311799969787586" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r3]" value="0.24986044512892708" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r4]" value="0.24561427338213176" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r5]" value="0.20290586618223533" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Perceived CFR]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[CFR]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[R0]" value="2.5000002040395106" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma_pop]" value="1.4064324814566433e-07" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Population]" value="3572665" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha_pop]" value="2.8128649629132866e-07" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta_pop]" value="5.625729925826574e-09" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta_pop]" value="8.4385948887398602e-09" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[scale]" value="0.78222655465241187" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_epsilon]" value="0.29999999999999999" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_theta]" value="0.0054878294478546081" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_mu]" value="0.059999999999999998" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_nu]" value="0.059999999999999998" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[day8x]" value="0.9243809246638035" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[day15x]" value="0.81814736838768776" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_lambda]" value="0.22155041982369297" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_kappa]" value="1.0270939380653352" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_sigma]" value="1.0270939380653352" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_xi]" value="1.0270939380653352" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_rho]" value="0.22155041982369297" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tpeak]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tpeaktime]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[New cases]" value="1.0049421389869302" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[New diagnosed]" value="1.0196667063387637e-16" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tnonew]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tot_reduction]" value="0.75627982090146828" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ImmuneRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ApplyRelaxationMay1]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[HiddenRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[InfectedRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_stage4]" value="0.5" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[R(73)]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_beta]" value="0.079987615804590434" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_delta],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_gamma]" value="0.050000680485198554" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_delta]" value="0.079987615804590434" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ImmuneRatio(73)]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[InfectedRatio(73)]" value="0" type="ModelValue" simulationType="fixed"/>
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<ModelParameterGroup cn="String=Kinetic Parameters" type="Group">
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_I],ParameterGroup=Parameters,Parameter=k1" value="2.8128649629132866e-07" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha_pop],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_D],ParameterGroup=Parameters,Parameter=k1" value="5.625729925826574e-09" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta_pop],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_A],ParameterGroup=Parameters,Parameter=k1" value="1.4064324814566433e-07" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma_pop],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_R],ParameterGroup=Parameters,Parameter=k1" value="8.4385948887398602e-09" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta_pop],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_I],ParameterGroup=Parameters,Parameter=k1" value="0" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[epsilon],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_I],ParameterGroup=Parameters,Parameter=k1" value="1.2781363580683676" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[zeta],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_D],ParameterGroup=Parameters,Parameter=k1" value="1.2781363580683676" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[eta],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_A],ParameterGroup=Parameters,Parameter=k1" value="0.0042461717467953287" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[theta],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_A],ParameterGroup=Parameters,Parameter=k1" value="0.088424079597809083" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[mu],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_R],ParameterGroup=Parameters,Parameter=k1" value="0.088424079597809083" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[nu],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[death]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[death],ParameterGroup=Parameters,Parameter=k1" value="0.045715672397912674" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[tau],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_I],ParameterGroup=Parameters,Parameter=k1" value="0.15304363891039099" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[lambda],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_D],ParameterGroup=Parameters,Parameter=k1" value="0.15304363891039099" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[rho],Reference=InitialValue>
</InitialExpression>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_A],ParameterGroup=Parameters,Parameter=k1" value="0.15719019378432267" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[kappa],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_R],ParameterGroup=Parameters,Parameter=k1" value="0.15719019378432267" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[xi],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_T]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_T],ParameterGroup=Parameters,Parameter=k1" value="0.15719019378432267" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[sigma],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
</ModelParameterGroup>
</ModelParameterSet>
<ModelParameterSet key="ModelParameterSet_7" name="Model8 - 5/18">
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<ModelParameterGroup cn="String=Initial Time" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9" value="0" type="Model" simulationType="time"/>
</ModelParameterGroup>
<ModelParameterGroup cn="String=Initial Compartment Sizes" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment]" value="1" type="Compartment" simulationType="fixed"/>
</ModelParameterGroup>
<ModelParameterGroup cn="String=Initial Species Values" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[I]" value="1" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[S]" value="3572664" type="Species" simulationType="reactions">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Population],Reference=InitialValue>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[I],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[D],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[A],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[R],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[T],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[E],Reference=InitialConcentration>
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[D]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[A]" value="4.7079283750000002e-11" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[R]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[T]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[E]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[H]" value="0" type="Species" simulationType="reactions"/>
</ModelParameterGroup>
<ModelParameterGroup cn="String=Initial Global Quantities" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha]" value="0.9954581144658875" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta]" value="0.019909162289317751" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.02
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma]" value="0.49772905723294375" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.5
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta]" value="0.029863743433976624" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.03
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[epsilon]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[zeta]" value="1.1977775517953781" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[eta]" value="1.1977775517953781" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[theta]" value="0.0045857063924105504" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[kappa]" value="0.15657725744898099" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[lambda]" value="0.152854305144597" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[mu]" value="0.089490056457292813" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[nu]" value="0.089490056457292813" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[xi]" value="0.15657725744898099" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[rho]" value="0.152854305144597" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[sigma]" value="0.15657725744898099" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[tau]" value="0.045796423214537148" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[DRT]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[IDARTHE]" value="1.0000000000470792" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[IDART]" value="1.0000000000470792" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Recovered]" value="0" type="ModelValue" simulationType="ode"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Diagnosed Cumulative infected]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r1]" value="1.3506318569399751" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r2]" value="1.3506318569399751" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r3]" value="0.25065302029868436" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r4]" value="0.24606731390627379" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r5]" value="0.20237368066351813" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Perceived CFR]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[CFR]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[R0]" value="2.5000000010639694" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma_pop]" value="1.3931590485896208e-07" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Population]" value="3572665" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha_pop]" value="2.7863180971792416e-07" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta_pop]" value="5.5726361943584838e-09" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta_pop]" value="8.3589542915377249e-09" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[scale]" value="0.78222655465241187" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_epsilon]" value="0.29999999999999999" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_theta]" value="0.0054878294478546081" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_mu]" value="0.059999999999999998" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_nu]" value="0.059999999999999998" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[day8x]" value="0.91963909121352194" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[day15x]" value="0.82394701118484981" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_lambda]" value="0.22155041982369297" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_kappa]" value="1.0243562148992935" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_sigma]" value="1.0243562148992935" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_xi]" value="1.0243562148992935" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_rho]" value="0.22155041982369297" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tpeak]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tpeaktime]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[New cases]" value="0.99545783585751046" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[New diagnosed]" value="2.1589177244248517e-13" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tnonew]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tot_reduction]" value="0.75773388057413282" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ImmuneRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ApplyRelaxationMay1]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[HiddenRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[InfectedRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_stage4]" value="0.5" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[R(73)]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_beta]" value="0.088618421549135101" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_delta],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_gamma]" value="0.010354336806294436" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_delta]" value="0.088618421549135101" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ImmuneRatio(73)]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[InfectedRatio(73)]" value="0" type="ModelValue" simulationType="fixed"/>
</ModelParameterGroup>
<ModelParameterGroup cn="String=Kinetic Parameters" type="Group">
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_I],ParameterGroup=Parameters,Parameter=k1" value="2.7863180971792416e-07" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha_pop],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_D],ParameterGroup=Parameters,Parameter=k1" value="5.5726361943584838e-09" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta_pop],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_A],ParameterGroup=Parameters,Parameter=k1" value="1.3931590485896208e-07" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma_pop],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_R],ParameterGroup=Parameters,Parameter=k1" value="8.3589542915377249e-09" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta_pop],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_I],ParameterGroup=Parameters,Parameter=k1" value="0" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[epsilon],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_I],ParameterGroup=Parameters,Parameter=k1" value="1.1977775517953781" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[zeta],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_D],ParameterGroup=Parameters,Parameter=k1" value="1.1977775517953781" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[eta],Reference=InitialValue>
</InitialExpression>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_A],ParameterGroup=Parameters,Parameter=k1" value="0.0045857063924105504" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[theta],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_A],ParameterGroup=Parameters,Parameter=k1" value="0.089490056457292813" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[mu],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_R],ParameterGroup=Parameters,Parameter=k1" value="0.089490056457292813" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[nu],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[death]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[death],ParameterGroup=Parameters,Parameter=k1" value="0.045796423214537148" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[tau],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_I],ParameterGroup=Parameters,Parameter=k1" value="0.152854305144597" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[lambda],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_D],ParameterGroup=Parameters,Parameter=k1" value="0.152854305144597" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[rho],Reference=InitialValue>
</InitialExpression>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_A],ParameterGroup=Parameters,Parameter=k1" value="0.15657725744898099" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[kappa],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_R],ParameterGroup=Parameters,Parameter=k1" value="0.15657725744898099" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[xi],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_T]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_T],ParameterGroup=Parameters,Parameter=k1" value="0.15657725744898099" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[sigma],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
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</ModelParameterGroup>
</ModelParameterSet>
<ModelParameterSet key="ModelParameterSet_8" name="Model8 - 5/19">
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<dcterms:W3CDTF>2020-05-20T03:00:21Z</dcterms:W3CDTF>
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<ModelParameterGroup cn="String=Initial Time" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9" value="0" type="Model" simulationType="time"/>
</ModelParameterGroup>
<ModelParameterGroup cn="String=Initial Compartment Sizes" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment]" value="1" type="Compartment" simulationType="fixed"/>
</ModelParameterGroup>
<ModelParameterGroup cn="String=Initial Species Values" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[I]" value="1" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[S]" value="3572664" type="Species" simulationType="reactions">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Population],Reference=InitialValue>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[I],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[D],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[A],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[R],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[T],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[E],Reference=InitialConcentration>
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[D]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[A]" value="5.9219420570318321e-16" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[R]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[T]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[E]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[H]" value="0" type="Species" simulationType="reactions"/>
</ModelParameterGroup>
<ModelParameterGroup cn="String=Initial Global Quantities" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha]" value="1.0415548415045426" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta]" value="0.020831096830090851" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.02
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma]" value="0.52077742075227129" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.5
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta]" value="0.031246645245136276" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.03
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[epsilon]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[zeta]" value="1.5" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[eta]" value="1.5" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[theta]" value="0.0028688264875610793" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[kappa]" value="0.13752937546707555" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[lambda]" value="0.12999091968372362" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[mu]" value="0.062759948977907321" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[nu]" value="0.062759948977907321" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[xi]" value="0.13752937546707555" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[rho]" value="0.12999091968372362" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[sigma]" value="0.13752937546707555" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[tau]" value="0.045790148269484875" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[DRT]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[IDARTHE]" value="1.0000000000000007" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[IDART]" value="1.0000000000000007" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Recovered]" value="0" type="ModelValue" simulationType="ode"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Diagnosed Cumulative infected]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r1]" value="1.6299909196837237" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r2]" value="1.6299909196837237" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r3]" value="0.20315815093254397" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r4]" value="0.20028932444498287" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r5]" value="0.18331952373656044" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Perceived CFR]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[CFR]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[R0]" value="3.0000000025310656" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma_pop]" value="1.4576721320142562e-07" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Population]" value="3572665" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha_pop]" value="2.9153442640285123e-07" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta_pop]" value="5.8306885280570244e-09" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta_pop]" value="8.7460327920855375e-09" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[scale]" value="0.78222655465241187" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_epsilon]" value="0.29999999999999999" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_theta]" value="0.0054878294478546081" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_mu]" value="0.059999999999999998" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_nu]" value="0.059999999999999998" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[day8x]" value="0.87962551602159766" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[day15x]" value="0.73231473432667937" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_lambda]" value="0.22155041982369297" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_kappa]" value="1.0579921720816614" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_sigma]" value="1.0579921720816614" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_xi]" value="1.0579921720816614" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_rho]" value="0.22155041982369297" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tpeak]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tpeaktime]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[New cases]" value="1.0415545499701162" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[New diagnosed]" value="1.6989024231014863e-18" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tnonew]" value="-1" type="ModelValue" simulationType="fixed"/>
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ImmuneRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ApplyRelaxationMay1]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[HiddenRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[InfectedRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_stage4]" value="0.5" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[R(73)]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_beta]" value="0.001" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_delta],Reference=InitialValue>
</InitialExpression>
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_gamma]" value="0.79999934167040498" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_delta]" value="0.001" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ImmuneRatio(73)]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[InfectedRatio(73)]" value="0" type="ModelValue" simulationType="fixed"/>
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<ModelParameterGroup cn="String=Kinetic Parameters" type="Group">
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_I],ParameterGroup=Parameters,Parameter=k1" value="2.9153442640285123e-07" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha_pop],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_D],ParameterGroup=Parameters,Parameter=k1" value="5.8306885280570244e-09" type="ReactionParameter" simulationType="assignment">
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<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta_pop],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_A],ParameterGroup=Parameters,Parameter=k1" value="1.4576721320142562e-07" type="ReactionParameter" simulationType="assignment">
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<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma_pop],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_R],ParameterGroup=Parameters,Parameter=k1" value="8.7460327920855375e-09" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta_pop],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_I],ParameterGroup=Parameters,Parameter=k1" value="0" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[epsilon],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_I],ParameterGroup=Parameters,Parameter=k1" value="1.5" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[zeta],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_D],ParameterGroup=Parameters,Parameter=k1" value="1.5" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[eta],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_A],ParameterGroup=Parameters,Parameter=k1" value="0.0028688264875610793" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[theta],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_A],ParameterGroup=Parameters,Parameter=k1" value="0.062759948977907321" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[mu],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_R],ParameterGroup=Parameters,Parameter=k1" value="0.062759948977907321" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[nu],Reference=InitialValue>
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</ModelParameter>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[death]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[death],ParameterGroup=Parameters,Parameter=k1" value="0.045790148269484875" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[tau],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_I],ParameterGroup=Parameters,Parameter=k1" value="0.12999091968372362" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[lambda],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_D],ParameterGroup=Parameters,Parameter=k1" value="0.12999091968372362" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[rho],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_A],ParameterGroup=Parameters,Parameter=k1" value="0.13752937546707555" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[kappa],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_R],ParameterGroup=Parameters,Parameter=k1" value="0.13752937546707555" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[xi],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_T]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_T],ParameterGroup=Parameters,Parameter=k1" value="0.13752937546707555" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[sigma],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
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<ModelParameterSet key="ModelParameterSet_9" name="Model9 - 5/21">
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<dcterms:W3CDTF>2020-05-22T03:37:59Z</dcterms:W3CDTF>
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<ModelParameterGroup cn="String=Initial Time" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9" value="0" type="Model" simulationType="time"/>
</ModelParameterGroup>
<ModelParameterGroup cn="String=Initial Compartment Sizes" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment]" value="1" type="Compartment" simulationType="fixed"/>
</ModelParameterGroup>
<ModelParameterGroup cn="String=Initial Species Values" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[I]" value="1" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[S]" value="3572663.9999999227" type="Species" simulationType="reactions">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Population],Reference=InitialValue>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[I],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[D],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[A],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[R],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[T],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[E],Reference=InitialConcentration>
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[D]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[A]" value="7.748119191262634e-08" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[R]" value="0" type="Species" simulationType="reactions"/>
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[H]" value="0" type="Species" simulationType="reactions"/>
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<ModelParameterGroup cn="String=Initial Global Quantities" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha]" value="0.97828861206521534" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta]" value="0.019565772241304309" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.02
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma]" value="0.48914430603260767" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.5
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta]" value="0.029348658361956458" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.03
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[epsilon]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[zeta]" value="0.01" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[eta]" value="0.01" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[theta]" value="0.00015777708458798744" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[kappa]" value="0.12241196328918663" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[lambda]" value="0.12241196328918663" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[mu]" value="0.01" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[nu]" value="0.01" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[xi]" value="0.12241196328918663" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[rho]" value="0.12241196328918663" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[sigma]" value="0.12241196328918663" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[tau]" value="0.045501403201783822" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[DRT]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[IDARTHE]" value="1.0000000774811919" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[IDART]" value="1.0000000774811919" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Recovered]" value="0" type="ModelValue" simulationType="ode"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Diagnosed Cumulative infected]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r1]" value="0.13241196328918664" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r2]" value="0.13241196328918664" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r3]" value="0.13256974037377461" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r4]" value="0.13241196328918664" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r5]" value="0.16791336649097044" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Perceived CFR]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[CFR]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[R0]" value="7.6668931993267551" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma_pop]" value="1.3691300640631228e-07" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Population]" value="3572665" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha_pop]" value="2.7382601281262456e-07" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta_pop]" value="5.4765202562524921e-09" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta_pop]" value="8.2147803843787361e-09" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[scale]" value="0.78222655465241187" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_epsilon]" value="0.29999999999999999" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_theta]" value="0.0054878294478546081" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_mu]" value="0.059999999999999998" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_nu]" value="0.059999999999999998" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[day8x]" value="0.99999998983128291" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[day15x]" value="0.21917580045131974" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_lambda]" value="0.22155041982369297" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_kappa]" value="1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_sigma]" value="1" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_xi]" value="1" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_rho]" value="0.22155041982369297" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tpeak]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tpeaktime]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[New cases]" value="0.9782883761386546" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[New diagnosed]" value="1.2224756570376535e-11" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tnonew]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tot_reduction]" value="0.21917579822258304" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ImmuneRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ApplyRelaxationMay1]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[HiddenRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[InfectedRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_stage4]" value="0.5" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[R(73)]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_beta]" value="0.00010181569426471001" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_delta],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_gamma]" value="0.015281698305614228" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_delta]" value="0.00010181569426471001" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ImmuneRatio(73)]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[InfectedRatio(73)]" value="0" type="ModelValue" simulationType="fixed"/>
</ModelParameterGroup>
<ModelParameterGroup cn="String=Kinetic Parameters" type="Group">
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_I],ParameterGroup=Parameters,Parameter=k1" value="2.7382601281262456e-07" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha_pop],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_D],ParameterGroup=Parameters,Parameter=k1" value="5.4765202562524921e-09" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta_pop],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_A],ParameterGroup=Parameters,Parameter=k1" value="1.3691300640631228e-07" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma_pop],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_R],ParameterGroup=Parameters,Parameter=k1" value="8.2147803843787361e-09" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta_pop],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_I],ParameterGroup=Parameters,Parameter=k1" value="0" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[epsilon],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_I],ParameterGroup=Parameters,Parameter=k1" value="0.01" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[zeta],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_D],ParameterGroup=Parameters,Parameter=k1" value="0.01" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[eta],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_A],ParameterGroup=Parameters,Parameter=k1" value="0.00015777708458798744" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[theta],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_A],ParameterGroup=Parameters,Parameter=k1" value="0.01" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[mu],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_R],ParameterGroup=Parameters,Parameter=k1" value="0.01" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[nu],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[death]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[death],ParameterGroup=Parameters,Parameter=k1" value="0.045501403201783822" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[tau],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_I],ParameterGroup=Parameters,Parameter=k1" value="0.12241196328918663" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[lambda],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_D],ParameterGroup=Parameters,Parameter=k1" value="0.12241196328918663" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[rho],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_A],ParameterGroup=Parameters,Parameter=k1" value="0.12241196328918663" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[kappa],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_R],ParameterGroup=Parameters,Parameter=k1" value="0.12241196328918663" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[xi],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_T]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_T],ParameterGroup=Parameters,Parameter=k1" value="0.12241196328918663" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[sigma],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
</ModelParameterGroup>
</ModelParameterSet>
<ModelParameterSet key="ModelParameterSet_10" name="Model9 - 5/23">
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<dcterms:W3CDTF>2020-05-22T03:37:59Z</dcterms:W3CDTF>
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<ModelParameterGroup cn="String=Initial Time" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9" value="0" type="Model" simulationType="time"/>
</ModelParameterGroup>
<ModelParameterGroup cn="String=Initial Compartment Sizes" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment]" value="1" type="Compartment" simulationType="fixed"/>
</ModelParameterGroup>
<ModelParameterGroup cn="String=Initial Species Values" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[I]" value="10" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[S]" value="3572654.9999756892" type="Species" simulationType="reactions">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Population],Reference=InitialValue>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[I],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[D],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[A],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[R],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[T],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[E],Reference=InitialConcentration>
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[D]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[A]" value="2.4310900610000001e-05" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[R]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[T]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[E]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[H]" value="0" type="Species" simulationType="reactions"/>
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<ModelParameterGroup cn="String=Initial Global Quantities" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha]" value="0.91298161772959641" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta]" value="0.01825963235459193" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.02
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma]" value="0.4564908088647982" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.5
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta]" value="0.027389448531887892" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.03
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[epsilon]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[zeta]" value="0.014067159083545583" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[eta]" value="0.014067159083545583" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[theta]" value="5.7176971025373616e-05" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[kappa]" value="0.054730730539065679" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[lambda]" value="0.15862085912950954" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[mu]" value="0.0020738817706549258" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[nu]" value="0.0020738817706549258" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[xi]" value="0.054730730539065679" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[rho]" value="0.15862085912950954" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[sigma]" value="0.054730730539065679" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[tau]" value="0.046439790404895251" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[DRT]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[IDARTHE]" value="10.00002431090061" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[IDART]" value="10.00002431090061" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Recovered]" value="0" type="ModelValue" simulationType="ode"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Diagnosed Cumulative infected]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r1]" value="0.17268801821305513" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r2]" value="0.17268801821305513" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r3]" value="0.056861789280745978" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r4]" value="0.056804612309720608" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r5]" value="0.10117052094396092" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Perceived CFR]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[CFR]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[R0]" value="5.940890871102332" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma_pop]" value="1.2777319140327969e-07" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Population]" value="3572665" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha_pop]" value="2.5554638280655937e-07" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta_pop]" value="5.1109276561311879e-09" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta_pop]" value="7.6663914841967803e-09" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[scale]" value="0.78222655465241187" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_epsilon]" value="0.29999999999999999" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_theta]" value="0.0054878294478546081" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_mu]" value="0.059999999999999998" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_nu]" value="0.059999999999999998" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[day8x]" value="0.99999897355914413" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[day15x]" value="0.38198434480590215" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_lambda]" value="0.22155041982369297" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_kappa]" value="0.34504119344341433" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_sigma]" value="0.34504119344341433" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_xi]" value="0.34504119344341433" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_rho]" value="0.22155041982369297" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tpeak]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tpeaktime]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[New cases]" value="9.1298017202671797" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[New diagnosed]" value="1.3900236597787078e-09" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tnonew]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tot_reduction]" value="0.38198395272156432" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ImmuneRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ApplyRelaxationMay1]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[HiddenRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[InfectedRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_stage4]" value="0.5" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[R(73)]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_beta]" value="0.0001" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_delta],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_gamma]" value="0.80000000000000004" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_delta]" value="0.0001" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ImmuneRatio(73)]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[InfectedRatio(73)]" value="0" type="ModelValue" simulationType="fixed"/>
</ModelParameterGroup>
<ModelParameterGroup cn="String=Kinetic Parameters" type="Group">
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_I],ParameterGroup=Parameters,Parameter=k1" value="2.5554638280655937e-07" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha_pop],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_D],ParameterGroup=Parameters,Parameter=k1" value="5.1109276561311879e-09" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta_pop],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_A],ParameterGroup=Parameters,Parameter=k1" value="1.2777319140327969e-07" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma_pop],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_R],ParameterGroup=Parameters,Parameter=k1" value="7.6663914841967803e-09" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta_pop],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_I],ParameterGroup=Parameters,Parameter=k1" value="0" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[epsilon],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_I],ParameterGroup=Parameters,Parameter=k1" value="0.014067159083545583" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[zeta],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_D],ParameterGroup=Parameters,Parameter=k1" value="0.014067159083545583" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[eta],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_A],ParameterGroup=Parameters,Parameter=k1" value="5.7176971025373616e-05" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[theta],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_A],ParameterGroup=Parameters,Parameter=k1" value="0.0020738817706549258" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[mu],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_R],ParameterGroup=Parameters,Parameter=k1" value="0.0020738817706549258" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[nu],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[death]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[death],ParameterGroup=Parameters,Parameter=k1" value="0.046439790404895251" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[tau],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_I],ParameterGroup=Parameters,Parameter=k1" value="0.15862085912950954" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[lambda],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_D],ParameterGroup=Parameters,Parameter=k1" value="0.15862085912950954" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[rho],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_A],ParameterGroup=Parameters,Parameter=k1" value="0.054730730539065679" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[kappa],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_R],ParameterGroup=Parameters,Parameter=k1" value="0.054730730539065679" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[xi],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_T]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_T],ParameterGroup=Parameters,Parameter=k1" value="0.054730730539065679" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[sigma],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
</ModelParameterGroup>
</ModelParameterSet>
<ModelParameterSet key="ModelParameterSet_11" name="Model9 - 5/26">
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<dcterms:W3CDTF>2020-05-26T15:29:02Z</dcterms:W3CDTF>
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<ModelParameterGroup cn="String=Initial Time" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9" value="0" type="Model" simulationType="time"/>
</ModelParameterGroup>
<ModelParameterGroup cn="String=Initial Compartment Sizes" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment]" value="1" type="Compartment" simulationType="fixed"/>
</ModelParameterGroup>
<ModelParameterGroup cn="String=Initial Species Values" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[I]" value="1" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[S]" value="3572663.9999999609" type="Species" simulationType="reactions">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Population],Reference=InitialValue>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[I],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[D],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[A],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[R],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[T],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[E],Reference=InitialConcentration>
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[D]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[A]" value="3.9186402827728001e-08" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[R]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[T]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[E]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[H]" value="0" type="Species" simulationType="reactions"/>
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<ModelParameterGroup cn="String=Initial Global Quantities" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha]" value="1.0635705111228586" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta]" value="0.021271410222457172" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.02
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma]" value="0.5317852555614293" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.5
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta]" value="0.031907115333685759" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.03
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[epsilon]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[zeta]" value="0.022015939429332616" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[eta]" value="0.022015939429332616" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[theta]" value="2.7859101343018442e-05" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[kappa]" value="0.053071872832333875" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[lambda]" value="0.13329188868006139" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[mu]" value="0.0010544599499623117" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[nu]" value="0.0010544599499623117" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[xi]" value="0.053071872832333875" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[rho]" value="0.13329188868006139" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[sigma]" value="0.053071872832333875" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[tau]" value="0.046591434054093633" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[DRT]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[IDARTHE]" value="1.0000000391864028" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[IDART]" value="1.0000000391864028" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Recovered]" value="0" type="ModelValue" simulationType="ode"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Diagnosed Cumulative infected]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r1]" value="0.155307828109394" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r2]" value="0.155307828109394" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r3]" value="0.054154191883639208" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r4]" value="0.054126332782296185" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r5]" value="0.099663306886427508" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Perceived CFR]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[CFR]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[R0]" value="8.2402162637951886" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma_pop]" value="1.4884834026180158e-07" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Population]" value="3572665" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha_pop]" value="2.9769668052360316e-07" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta_pop]" value="5.953933610472063e-09" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta_pop]" value="8.930900415708094e-09" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[scale]" value="0.78222655465241187" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_epsilon]" value="0.29999999999999999" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_theta]" value="0.0054878294478546081" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_mu]" value="0.059999999999999998" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_nu]" value="0.059999999999999998" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[day8x]" value="0.99999999604143675" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[day15x]" value="0.34266214815831036" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_lambda]" value="0.22155041982369297" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_kappa]" value="0.39816280913928326" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_sigma]" value="0.39816280913928326" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_xi]" value="0.39816280913928326" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_rho]" value="0.22155041982369297" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tpeak]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tpeaktime]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[New cases]" value="1.0635702342649118" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[New diagnosed]" value="1.0916979676460187e-12" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tnonew]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tot_reduction]" value="0.34266214680186058" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ImmuneRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ApplyRelaxationMay1]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[HiddenRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[InfectedRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_stage4]" value="0.5" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[R(73)]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_beta]" value="0.00016905784162968507" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_delta],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_gamma]" value="0.78873991589452019" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_delta]" value="0.00016905784162968507" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ImmuneRatio(73)]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[InfectedRatio(73)]" value="0" type="ModelValue" simulationType="fixed"/>
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<ModelParameterGroup cn="String=Kinetic Parameters" type="Group">
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_I],ParameterGroup=Parameters,Parameter=k1" value="2.9769668052360316e-07" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha_pop],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_D],ParameterGroup=Parameters,Parameter=k1" value="5.953933610472063e-09" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta_pop],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_A],ParameterGroup=Parameters,Parameter=k1" value="1.4884834026180158e-07" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma_pop],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_R],ParameterGroup=Parameters,Parameter=k1" value="8.930900415708094e-09" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta_pop],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_I],ParameterGroup=Parameters,Parameter=k1" value="0" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[epsilon],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_I],ParameterGroup=Parameters,Parameter=k1" value="0.022015939429332616" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[zeta],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_D],ParameterGroup=Parameters,Parameter=k1" value="0.022015939429332616" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[eta],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_A],ParameterGroup=Parameters,Parameter=k1" value="2.7859101343018442e-05" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[theta],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_A],ParameterGroup=Parameters,Parameter=k1" value="0.0010544599499623117" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[mu],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_R],ParameterGroup=Parameters,Parameter=k1" value="0.0010544599499623117" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[nu],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[death]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[death],ParameterGroup=Parameters,Parameter=k1" value="0.046591434054093633" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[tau],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_I],ParameterGroup=Parameters,Parameter=k1" value="0.13329188868006139" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[lambda],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_D],ParameterGroup=Parameters,Parameter=k1" value="0.13329188868006139" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[rho],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_A],ParameterGroup=Parameters,Parameter=k1" value="0.053071872832333875" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[kappa],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_R],ParameterGroup=Parameters,Parameter=k1" value="0.053071872832333875" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[xi],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_T]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_T],ParameterGroup=Parameters,Parameter=k1" value="0.053071872832333875" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[sigma],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
</ModelParameterGroup>
</ModelParameterSet>
<ModelParameterSet key="ModelParameterSet_12" name="Model9 - 5/27">
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<dcterms:W3CDTF>2020-05-28T02:36:53Z</dcterms:W3CDTF>
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<ModelParameterGroup cn="String=Initial Time" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9" value="0" type="Model" simulationType="time"/>
</ModelParameterGroup>
<ModelParameterGroup cn="String=Initial Compartment Sizes" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment]" value="1" type="Compartment" simulationType="fixed"/>
</ModelParameterGroup>
<ModelParameterGroup cn="String=Initial Species Values" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[I]" value="1.000000143360015" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[S]" value="3572663.9999998002" type="Species" simulationType="reactions">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Population],Reference=InitialValue>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[I],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[D],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[A],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[R],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[T],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[E],Reference=InitialConcentration>
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[D]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[A]" value="5.6176372020859158e-08" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[R]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[T]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[E]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[H]" value="0" type="Species" simulationType="reactions"/>
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<ModelParameterGroup cn="String=Initial Global Quantities" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha]" value="1.0762388173820188" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta]" value="0.021524776347640377" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.02
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</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma]" value="0.53811940869100938" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.5
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta]" value="0.032287164521460562" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.03
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[epsilon]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[zeta]" value="0.030305565848566883" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[eta]" value="0.030305565848566883" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[theta]" value="2.6298193032848045e-05" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[kappa]" value="0.05331245408565588" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[lambda]" value="0.16221827886731621" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[mu]" value="0.001" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[nu]" value="0.001" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[xi]" value="0.05331245408565588" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[rho]" value="0.16221827886731621" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[sigma]" value="0.05331245408565588" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[tau]" value="0.04662988116657623" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[DRT]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[IDARTHE]" value="1.000000199536387" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[IDART]" value="1.000000199536387" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Recovered]" value="0" type="ModelValue" simulationType="ode"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Diagnosed Cumulative infected]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r1]" value="0.1925238447158831" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r2]" value="0.1925238447158831" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r3]" value="0.054338752278688729" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r4]" value="0.054312454085655881" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r5]" value="0.099942335252232117" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Perceived CFR]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[CFR]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[R0]" value="7.149062953319663" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma_pop]" value="1.5062128934311203e-07" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Population]" value="3572665" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha_pop]" value="3.0124257868622406e-07" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta_pop]" value="6.0248515737244821e-09" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta_pop]" value="9.0372773605867224e-09" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[scale]" value="0.78222655465241187" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_epsilon]" value="2.6298190298029516e-05" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_theta]" value="0.0054878294478546081" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_mu]" value="0.059999999999999998" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_nu]" value="0.059999999999999998" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[day8x]" value="0.9999999960414313" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[day15x]" value="0.34293544785675895" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_lambda]" value="0.22155041982369297" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_kappa]" value="0.32864640444904442" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_sigma]" value="0.32864640444904442" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_xi]" value="0.32864640444904442" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_rho]" value="0.22155041982369297" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tpeak]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tpeaktime]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[New cases]" value="1.0762387006585374" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[New diagnosed]" value="1.4773370752896382e-12" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tnonew]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tot_reduction]" value="0.34293544649922542" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ImmuneRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ApplyRelaxationMay1]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[HiddenRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[InfectedRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_stage4]" value="0.5" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[R(73)]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_beta]" value="0.00016905784162968507" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_delta],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_gamma]" value="0.78873991589452019" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_delta]" value="0.00016905784162968507" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ImmuneRatio(73)]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[InfectedRatio(73)]" value="0" type="ModelValue" simulationType="fixed"/>
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<ModelParameterGroup cn="String=Kinetic Parameters" type="Group">
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_I],ParameterGroup=Parameters,Parameter=k1" value="3.0124257868622406e-07" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha_pop],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_D],ParameterGroup=Parameters,Parameter=k1" value="6.0248515737244821e-09" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta_pop],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_A],ParameterGroup=Parameters,Parameter=k1" value="1.5062128934311203e-07" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma_pop],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_R],ParameterGroup=Parameters,Parameter=k1" value="9.0372773605867224e-09" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta_pop],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_I],ParameterGroup=Parameters,Parameter=k1" value="0" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[epsilon],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_I],ParameterGroup=Parameters,Parameter=k1" value="0.030305565848566883" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[zeta],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_D],ParameterGroup=Parameters,Parameter=k1" value="0.030305565848566883" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[eta],Reference=InitialValue>
</InitialExpression>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_A],ParameterGroup=Parameters,Parameter=k1" value="2.6298193032848045e-05" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[theta],Reference=InitialValue>
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_A],ParameterGroup=Parameters,Parameter=k1" value="0.001" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[mu],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_R]" type="Reaction">
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<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[nu],Reference=InitialValue>
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<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[tau],Reference=InitialValue>
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_I],ParameterGroup=Parameters,Parameter=k1" value="0.16221827886731621" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[lambda],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_D],ParameterGroup=Parameters,Parameter=k1" value="0.16221827886731621" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[rho],Reference=InitialValue>
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</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_A],ParameterGroup=Parameters,Parameter=k1" value="0.05331245408565588" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[kappa],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_R],ParameterGroup=Parameters,Parameter=k1" value="0.05331245408565588" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[xi],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_T]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_T],ParameterGroup=Parameters,Parameter=k1" value="0.05331245408565588" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[sigma],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
</ModelParameterGroup>
</ModelParameterSet>
<ModelParameterSet key="ModelParameterSet_13" name="Model9 - 5/28">
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<dcterms:W3CDTF>2020-05-28T20:31:58Z</dcterms:W3CDTF>
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<ModelParameterGroup cn="String=Initial Time" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9" value="0" type="Model" simulationType="time"/>
</ModelParameterGroup>
<ModelParameterGroup cn="String=Initial Compartment Sizes" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment]" value="1" type="Compartment" simulationType="fixed"/>
</ModelParameterGroup>
<ModelParameterGroup cn="String=Initial Species Values" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[I]" value="1" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[S]" value="3572663.9999999832" type="Species" simulationType="reactions">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Population],Reference=InitialValue>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[I],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[D],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[A],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[R],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[T],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[H],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[E],Reference=InitialConcentration>
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[D]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[A]" value="1.6895368979999999e-08" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[R]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[T]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[E]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[H]" value="0" type="Species" simulationType="reactions"/>
</ModelParameterGroup>
<ModelParameterGroup cn="String=Initial Global Quantities" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha]" value="1.0784355578209077" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta]" value="0.021568711156418154" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.02
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma]" value="0.53921777891045386" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.5
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta]" value="0.032353066734627234" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.03
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[epsilon]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[zeta]" value="0.030787852033487616" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[eta]" value="0.030787852033487616" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[theta]" value="2.6370795029761524e-05" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[kappa]" value="0.053032080284882245" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[lambda]" value="0.1655552942457594" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[mu]" value="0.001000010649598897" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[nu]" value="0.001000010649598897" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[xi]" value="0.053032080284882245" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[rho]" value="0.1655552942457594" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[sigma]" value="0.053032080284882245" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[tau]" value="0.046667651922283247" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[DRT]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[IDARTHE]" value="1.0000000168953689" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[IDART]" value="1.0000000168953689" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Recovered]" value="0" type="ModelValue" simulationType="ode"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Diagnosed Cumulative infected]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r1]" value="0.19634314627924701" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r2]" value="0.19634314627924701" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r3]" value="0.054058461729510905" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r4]" value="0.054032090934481143" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r5]" value="0.099699732207165492" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Perceived CFR]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[CFR]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[R0]" value="7.0567506099189989" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma_pop]" value="1.5092872656978861e-07" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Population]" value="3572665" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha_pop]" value="3.0185745313957722e-07" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta_pop]" value="6.0371490627915442e-09" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta_pop]" value="9.0557235941873172e-09" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[scale]" value="0.78222655465241187" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_epsilon]" value="2.6370794921746737e-05" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_theta]" value="0.0054878294478546081" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_mu]" value="0.059999999999999998" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_nu]" value="0.059999999999999998" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[day8x]" value="0.99999998630939002" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[day15x]" value="0.34565156656592405" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_lambda]" value="0.22155041982369297" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_kappa]" value="0.32032850732129714" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_sigma]" value="0.32032850732129714" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_xi]" value="0.32032850732129714" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_rho]" value="0.22155041982369297" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tpeak]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tpeaktime]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[New cases]" value="1.0784352650737301" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[New diagnosed]" value="4.45544312323771e-13" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tnonew]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tot_reduction]" value="0.34565156183374324" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ImmuneRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ApplyRelaxationMay1]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[HiddenRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[InfectedRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_stage4]" value="0.5" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[R(73)]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_beta]" value="0.0001" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_delta],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_gamma]" value="0.79796617577006168" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_delta]" value="0.0001" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ImmuneRatio(73)]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[InfectedRatio(73)]" value="0" type="ModelValue" simulationType="fixed"/>
</ModelParameterGroup>
<ModelParameterGroup cn="String=Kinetic Parameters" type="Group">
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_I],ParameterGroup=Parameters,Parameter=k1" value="3.0185745313957722e-07" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha_pop],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_D],ParameterGroup=Parameters,Parameter=k1" value="6.0371490627915442e-09" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta_pop],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_A],ParameterGroup=Parameters,Parameter=k1" value="1.5092872656978861e-07" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma_pop],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_R],ParameterGroup=Parameters,Parameter=k1" value="9.0557235941873172e-09" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta_pop],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_I],ParameterGroup=Parameters,Parameter=k1" value="0" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[epsilon],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_I],ParameterGroup=Parameters,Parameter=k1" value="0.030787852033487616" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[zeta],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_D],ParameterGroup=Parameters,Parameter=k1" value="0.030787852033487616" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[eta],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_A],ParameterGroup=Parameters,Parameter=k1" value="2.6370795029761524e-05" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[theta],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_A],ParameterGroup=Parameters,Parameter=k1" value="0.001000010649598897" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[mu],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_R],ParameterGroup=Parameters,Parameter=k1" value="0.001000010649598897" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[nu],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[death]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[death],ParameterGroup=Parameters,Parameter=k1" value="0.046667651922283247" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[tau],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_I],ParameterGroup=Parameters,Parameter=k1" value="0.1655552942457594" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[lambda],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_D],ParameterGroup=Parameters,Parameter=k1" value="0.1655552942457594" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[rho],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_A],ParameterGroup=Parameters,Parameter=k1" value="0.053032080284882245" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[kappa],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_R],ParameterGroup=Parameters,Parameter=k1" value="0.053032080284882245" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[xi],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_T]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_T],ParameterGroup=Parameters,Parameter=k1" value="0.053032080284882245" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[sigma],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
</ModelParameterGroup>
</ModelParameterSet>
<ModelParameterSet key="ModelParameterSet_14" name="Model9 - 5/31">
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<ModelParameterGroup cn="String=Initial Time" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9" value="0" type="Model" simulationType="time"/>
</ModelParameterGroup>
<ModelParameterGroup cn="String=Initial Compartment Sizes" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment]" value="1" type="Compartment" simulationType="fixed"/>
</ModelParameterGroup>
<ModelParameterGroup cn="String=Initial Species Values" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[I]" value="1" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[S]" value="3572663.9999994198" type="Species" simulationType="reactions">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Population],Reference=InitialValue>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[I],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[D],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[A],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[R],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[T],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[H],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[E],Reference=InitialConcentration>
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[D]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[A]" value="5.8023557477742224e-07" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[R]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[T]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[E]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[H]" value="0" type="Species" simulationType="reactions"/>
</ModelParameterGroup>
<ModelParameterGroup cn="String=Initial Global Quantities" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha]" value="1.0664442161627214" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta]" value="0.02132888432325443" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.02
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma]" value="0.53322210808136072" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.5
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta]" value="0.031993326484881644" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.03
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[epsilon]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[zeta]" value="0.024653377945968773" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[eta]" value="0.024653377945968773" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[theta]" value="2.6327950746695043e-05" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[kappa]" value="0.053118051307623926" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[lambda]" value="0.13800403431583619" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[mu]" value="0.001" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[nu]" value="0.001" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[xi]" value="0.053118051307623926" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[rho]" value="0.13800403431583619" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[sigma]" value="0.053118051307623926" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[tau]" value="0.046820346087348613" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[DRT]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[IDARTHE]" value="1.0000005802355747" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[IDART]" value="1.0000005802355747" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Recovered]" value="0" type="ModelValue" simulationType="ode"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Diagnosed Cumulative infected]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r1]" value="0.16265741226180497" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r2]" value="0.16265741226180497" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r3]" value="0.054144379258370623" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r4]" value="0.054118051307623927" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r5]" value="0.099938397394972539" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Perceived CFR]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[CFR]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[R0]" value="8.0490738934408608" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma_pop]" value="1.4925051973284948e-07" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Population]" value="3572665" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha_pop]" value="2.9850103946569897e-07" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta_pop]" value="5.9700207893139794e-09" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta_pop]" value="8.95503118397097e-09" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[scale]" value="0.78222655465241187" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_epsilon]" value="2.6327948589910652e-05" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_theta]" value="0.0054878294478546081" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_mu]" value="0.059999999999999998" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_nu]" value="0.059999999999999998" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[day8x]" value="0.99999998854475269" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[day15x]" value="0.33647807531473922" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_lambda]" value="0.22155041982369297" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_kappa]" value="0.38490216297632207" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_sigma]" value="0.38490216297632207" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_xi]" value="0.38490216297632207" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_rho]" value="0.22155041982369297" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tpeak]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tpeaktime]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[New cases]" value="1.0664442270558585" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[New diagnosed]" value="1.527641363422026e-11" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tnonew]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tot_reduction]" value="0.33647807146029968" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ImmuneRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ApplyRelaxationMay1]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[HiddenRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[InfectedRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_stage4]" value="0.5" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[R(73)]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_beta]" value="0.00010000000000033544" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_delta],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_gamma]" value="0.79999999985687065" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_delta]" value="0.00010000000000033544" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ImmuneRatio(73)]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[InfectedRatio(73)]" value="0" type="ModelValue" simulationType="fixed"/>
</ModelParameterGroup>
<ModelParameterGroup cn="String=Kinetic Parameters" type="Group">
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_I],ParameterGroup=Parameters,Parameter=k1" value="2.9850103946569897e-07" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha_pop],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_D],ParameterGroup=Parameters,Parameter=k1" value="5.9700207893139794e-09" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta_pop],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_A],ParameterGroup=Parameters,Parameter=k1" value="1.4925051973284948e-07" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma_pop],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_R],ParameterGroup=Parameters,Parameter=k1" value="8.95503118397097e-09" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta_pop],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_I],ParameterGroup=Parameters,Parameter=k1" value="0" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[epsilon],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_I],ParameterGroup=Parameters,Parameter=k1" value="0.024653377945968773" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[zeta],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_D],ParameterGroup=Parameters,Parameter=k1" value="0.024653377945968773" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[eta],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_A],ParameterGroup=Parameters,Parameter=k1" value="2.6327950746695043e-05" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[theta],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_A],ParameterGroup=Parameters,Parameter=k1" value="0.001" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[mu],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_R],ParameterGroup=Parameters,Parameter=k1" value="0.001" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[nu],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[death]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[death],ParameterGroup=Parameters,Parameter=k1" value="0.046820346087348613" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[tau],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_I],ParameterGroup=Parameters,Parameter=k1" value="0.13800403431583619" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[lambda],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_D],ParameterGroup=Parameters,Parameter=k1" value="0.13800403431583619" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[rho],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_A],ParameterGroup=Parameters,Parameter=k1" value="0.053118051307623926" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[kappa],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_R],ParameterGroup=Parameters,Parameter=k1" value="0.053118051307623926" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[xi],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_T]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_T],ParameterGroup=Parameters,Parameter=k1" value="0.053118051307623926" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[sigma],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
</ModelParameterGroup>
</ModelParameterSet>
<ModelParameterSet key="ModelParameterSet_15" name="Model9 - 6/01">
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<dcterms:W3CDTF>2020-06-01T20:06:21Z</dcterms:W3CDTF>
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<ModelParameterGroup cn="String=Initial Time" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9" value="0" type="Model" simulationType="time"/>
</ModelParameterGroup>
<ModelParameterGroup cn="String=Initial Compartment Sizes" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment]" value="1" type="Compartment" simulationType="fixed"/>
</ModelParameterGroup>
<ModelParameterGroup cn="String=Initial Species Values" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[I]" value="1" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[S]" value="3572663.9997626124" type="Species" simulationType="reactions">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Population],Reference=InitialValue>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[I],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[D],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[A],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[R],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[T],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[H],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[E],Reference=InitialConcentration>
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[D]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[A]" value="0.00023738747636940796" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[R]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[T]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[E]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[H]" value="0" type="Species" simulationType="reactions"/>
</ModelParameterGroup>
<ModelParameterGroup cn="String=Initial Global Quantities" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha]" value="1.0523677981834403" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta]" value="0.021047355963668805" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.02
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma]" value="0.52618389909172014" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.5
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta]" value="0.031571033945503209" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.03
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[epsilon]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[zeta]" value="0.017375914174407793" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[eta]" value="0.017375914174407793" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[theta]" value="2.6342716412029106e-05" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[kappa]" value="0.053812576361848823" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[lambda]" value="0.10238563523015347" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[mu]" value="0.0010087966756876774" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[nu]" value="0.0010087966756876774" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[xi]" value="0.053812576361848823" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[rho]" value="0.10238563523015347" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[sigma]" value="0.053812576361848823" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[tau]" value="0.046879439739198871" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[DRT]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[IDARTHE]" value="1.0002373874763695" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[IDART]" value="1.0002373874763695" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Recovered]" value="0" type="ModelValue" simulationType="ode"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Diagnosed Cumulative infected]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r1]" value="0.11976154940456127" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r2]" value="0.11976154940456127" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r3]" value="0.054847715753948527" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r4]" value="0.054821373037536501" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r5]" value="0.10069201610104769" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Perceived CFR]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[CFR]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[R0]" value="10.17913665627187" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma_pop]" value="1.4728050323546153e-07" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Population]" value="3572665" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha_pop]" value="2.9456100647092306e-07" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta_pop]" value="5.8912201294184604e-09" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta_pop]" value="8.8368301941276914e-09" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[scale]" value="0.78222655465241187" type="ModelValue" simulationType="fixed"/>
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_mu]" value="0.059999999999999998" type="ModelValue" simulationType="assignment"/>
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[day8x]" value="0.99999999072131385" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[day15x]" value="0.36673461714746003" type="ModelValue" simulationType="fixed"/>
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tpeak]" value="-1" type="ModelValue" simulationType="fixed"/>
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[New cases]" value="1.0524924129854494" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[New diagnosed]" value="6.253430969766575e-09" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tnonew]" value="-1" type="ModelValue" simulationType="fixed"/>
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ApplyRelaxationMay1]" value="0" type="ModelValue" simulationType="fixed"/>
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_stage4]" value="0.5" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[R(73)]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_beta]" value="0.0001" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_delta],Reference=InitialValue>
</InitialExpression>
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_gamma]" value="0.80000000000000004" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_delta]" value="0.0001" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ImmuneRatio(73)]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[InfectedRatio(73)]" value="0" type="ModelValue" simulationType="fixed"/>
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_I],ParameterGroup=Parameters,Parameter=k1" value="2.9456100647092306e-07" type="ReactionParameter" simulationType="assignment">
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<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha_pop],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_D],ParameterGroup=Parameters,Parameter=k1" value="5.8912201294184604e-09" type="ReactionParameter" simulationType="assignment">
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<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta_pop],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_A],ParameterGroup=Parameters,Parameter=k1" value="1.4728050323546153e-07" type="ReactionParameter" simulationType="assignment">
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<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma_pop],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_R]" type="Reaction">
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<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta_pop],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_I],ParameterGroup=Parameters,Parameter=k1" value="0" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[epsilon],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_I],ParameterGroup=Parameters,Parameter=k1" value="0.017375914174407793" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[zeta],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_D],ParameterGroup=Parameters,Parameter=k1" value="0.017375914174407793" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[eta],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_A],ParameterGroup=Parameters,Parameter=k1" value="2.6342716412029106e-05" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[theta],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_A],ParameterGroup=Parameters,Parameter=k1" value="0.0010087966756876774" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[mu],Reference=InitialValue>
</InitialExpression>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_R],ParameterGroup=Parameters,Parameter=k1" value="0.0010087966756876774" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[nu],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[death]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[death],ParameterGroup=Parameters,Parameter=k1" value="0.046879439739198871" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[tau],Reference=InitialValue>
</InitialExpression>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_I],ParameterGroup=Parameters,Parameter=k1" value="0.10238563523015347" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[lambda],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_D],ParameterGroup=Parameters,Parameter=k1" value="0.10238563523015347" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[rho],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_A],ParameterGroup=Parameters,Parameter=k1" value="0.053812576361848823" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[kappa],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_R],ParameterGroup=Parameters,Parameter=k1" value="0.053812576361848823" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[xi],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_T]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_T],ParameterGroup=Parameters,Parameter=k1" value="0.053812576361848823" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[sigma],Reference=InitialValue>
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<ModelParameterSet key="ModelParameterSet_16" name="Model9 - 6/02">
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<dcterms:W3CDTF>2020-06-02T23:39:48Z</dcterms:W3CDTF>
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<ModelParameterGroup cn="String=Initial Time" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9" value="0" type="Model" simulationType="time"/>
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<ModelParameterGroup cn="String=Initial Compartment Sizes" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment]" value="1" type="Compartment" simulationType="fixed"/>
</ModelParameterGroup>
<ModelParameterGroup cn="String=Initial Species Values" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[I]" value="1" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[S]" value="3572664" type="Species" simulationType="reactions">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Population],Reference=InitialValue>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[I],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[D],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[A],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[R],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[T],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[H],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[E],Reference=InitialConcentration>
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[D]" value="0" type="Species" simulationType="reactions"/>
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[H]" value="0" type="Species" simulationType="reactions"/>
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<ModelParameterGroup cn="String=Initial Global Quantities" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha]" value="1.0502390501507228" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta]" value="0.021004781003014457" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.02
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma]" value="0.52511952507536142" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.5
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta]" value="0.031507171504521682" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.03
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</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[epsilon]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[zeta]" value="0.016909788117955269" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[eta]" value="0.016909788117955269" type="ModelValue" simulationType="assignment"/>
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[kappa]" value="0.054421300486560457" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[lambda]" value="0.097935225465734563" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[mu]" value="0.0010061165632341315" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[nu]" value="0.0010061165632341315" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[xi]" value="0.054421300486560457" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[rho]" value="0.097935225465734563" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[sigma]" value="0.054421300486560457" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[tau]" value="0.046915315496758779" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[DRT]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[IDARTHE]" value="1" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[IDART]" value="1" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Recovered]" value="0" type="ModelValue" simulationType="ode"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Diagnosed Cumulative infected]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r1]" value="0.11484501358368983" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r2]" value="0.11484501358368983" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r3]" value="0.055453484209818431" type="ModelValue" simulationType="assignment"/>
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r5]" value="0.10133661598331924" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Perceived CFR]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[CFR]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[R0]" value="10.539174578930437" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma_pop]" value="1.469825816513335e-07" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Population]" value="3572665" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha_pop]" value="2.9396516330266701e-07" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta_pop]" value="5.8793032660533406e-09" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta_pop]" value="8.8189548990800097e-09" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[scale]" value="0.78222655465241187" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_epsilon]" value="2.6067160023839262e-05" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_theta]" value="0.0054878294478546081" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_mu]" value="0.059999999999999998" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_nu]" value="0.059999999999999998" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[day8x]" value="0.99999995197926161" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[day15x]" value="0.36987033966143262" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_lambda]" value="0.22155041982369297" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_kappa]" value="0.55568668196512505" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_sigma]" value="0.55568668196512505" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_xi]" value="0.55568668196512505" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_rho]" value="0.22155041982369297" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tpeak]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tpeaktime]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[New cases]" value="1.0502387561855595" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[New diagnosed]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tnonew]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tot_reduction]" value="0.36987032189998581" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ImmuneRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ApplyRelaxationMay1]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[HiddenRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[InfectedRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_stage4]" value="0.5" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[R(73)]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_beta]" value="0.00010000142909129607" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_delta],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_gamma]" value="0.79999992781719997" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_delta]" value="0.00010000142909129607" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ImmuneRatio(73)]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[InfectedRatio(73)]" value="0" type="ModelValue" simulationType="fixed"/>
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<ModelParameterGroup cn="String=Kinetic Parameters" type="Group">
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_I],ParameterGroup=Parameters,Parameter=k1" value="2.9396516330266701e-07" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha_pop],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_D],ParameterGroup=Parameters,Parameter=k1" value="5.8793032660533406e-09" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta_pop],Reference=InitialValue>
</InitialExpression>
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</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_A],ParameterGroup=Parameters,Parameter=k1" value="1.469825816513335e-07" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma_pop],Reference=InitialValue>
</InitialExpression>
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</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_R],ParameterGroup=Parameters,Parameter=k1" value="8.8189548990800097e-09" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta_pop],Reference=InitialValue>
</InitialExpression>
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</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_I],ParameterGroup=Parameters,Parameter=k1" value="0" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[epsilon],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_I],ParameterGroup=Parameters,Parameter=k1" value="0.016909788117955269" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[zeta],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_D],ParameterGroup=Parameters,Parameter=k1" value="0.016909788117955269" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[eta],Reference=InitialValue>
</InitialExpression>
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</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_A],ParameterGroup=Parameters,Parameter=k1" value="2.6067160023839262e-05" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[theta],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_A],ParameterGroup=Parameters,Parameter=k1" value="0.0010061165632341315" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[mu],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_R],ParameterGroup=Parameters,Parameter=k1" value="0.0010061165632341315" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[nu],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[death]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[death],ParameterGroup=Parameters,Parameter=k1" value="0.046915315496758779" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[tau],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_I],ParameterGroup=Parameters,Parameter=k1" value="0.097935225465734563" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[lambda],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_D],ParameterGroup=Parameters,Parameter=k1" value="0.097935225465734563" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[rho],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_A],ParameterGroup=Parameters,Parameter=k1" value="0.054421300486560457" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[kappa],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_R],ParameterGroup=Parameters,Parameter=k1" value="0.054421300486560457" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[xi],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_T]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_T],ParameterGroup=Parameters,Parameter=k1" value="0.054421300486560457" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[sigma],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
</ModelParameterGroup>
</ModelParameterSet>
<ModelParameterSet key="ModelParameterSet_17" name="Model9 - 6/03">
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<dcterms:W3CDTF>2020-06-02T23:39:48Z</dcterms:W3CDTF>
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<ModelParameterGroup cn="String=Initial Time" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9" value="0" type="Model" simulationType="time"/>
</ModelParameterGroup>
<ModelParameterGroup cn="String=Initial Compartment Sizes" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment]" value="1" type="Compartment" simulationType="fixed"/>
</ModelParameterGroup>
<ModelParameterGroup cn="String=Initial Species Values" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[I]" value="1" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[S]" value="3572663.9999998561" type="Species" simulationType="reactions">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Population],Reference=InitialValue>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[I],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[D],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[A],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[R],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[T],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[H],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[E],Reference=InitialConcentration>
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[D]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[A]" value="1.4380595778784e-07" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[R]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[T]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[E]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[H]" value="0" type="Species" simulationType="reactions"/>
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<ModelParameterGroup cn="String=Initial Global Quantities" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha]" value="1.0484308432397969" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta]" value="0.020968616864795939" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.02
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma]" value="0.52421542161989843" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.5
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta]" value="0.031452925297193901" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.03
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[epsilon]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[zeta]" value="0.016536730284187423" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[eta]" value="0.016536730284187423" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[theta]" value="2.5911239839774597e-05" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[kappa]" value="0.055019214976714081" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[lambda]" value="0.094496475210014572" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[mu]" value="0.0010075866853569793" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[nu]" value="0.0010075866853569793" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[xi]" value="0.055019214976714081" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[rho]" value="0.094496475210014572" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[sigma]" value="0.055019214976714081" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[tau]" value="0.046948210260077484" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[DRT]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[IDARTHE]" value="1.0000001438059578" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[IDART]" value="1.0000001438059578" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Recovered]" value="0" type="ModelValue" simulationType="ode"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Diagnosed Cumulative infected]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r1]" value="0.11103320549420199" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r2]" value="0.11103320549420199" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r3]" value="0.056052712901910835" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r4]" value="0.056026801662071059" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r5]" value="0.10196742523679156" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Perceived CFR]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[CFR]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[R0]" value="10.835404725203402" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma_pop]" value="1.4672952029364591e-07" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Population]" value="3572665" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha_pop]" value="2.9345904058729182e-07" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta_pop]" value="5.8691808117458365e-09" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta_pop]" value="8.8037712176187523e-09" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[scale]" value="0.78222655465241187" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_epsilon]" value="2.5911213306651866e-05" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_theta]" value="0.0054878294478546081" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_mu]" value="0.059999999999999998" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_nu]" value="0.059999999999999998" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[day8x]" value="0.99999999760852054" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[day15x]" value="0.37205950984234359" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_lambda]" value="0.22155041982369297" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_kappa]" value="0.58223563211681828" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_sigma]" value="0.58223563211681828" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_xi]" value="0.58223563211681828" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_rho]" value="0.22155041982369297" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tpeak]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tpeaktime]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[New cases]" value="1.0484306251659938" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[New diagnosed]" value="3.7261906626292234e-12" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tnonew]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tot_reduction]" value="0.37205950895257089" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ImmuneRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ApplyRelaxationMay1]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[HiddenRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[InfectedRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_stage4]" value="0.5" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[R(73)]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_beta]" value="0.00010000000004435244" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_delta],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_gamma]" value="0.79999999941807198" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_delta]" value="0.00010000000004435244" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ImmuneRatio(73)]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[InfectedRatio(73)]" value="0" type="ModelValue" simulationType="fixed"/>
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<ModelParameterGroup cn="String=Kinetic Parameters" type="Group">
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_I],ParameterGroup=Parameters,Parameter=k1" value="2.9345904058729182e-07" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha_pop],Reference=InitialValue>
</InitialExpression>
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</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_D],ParameterGroup=Parameters,Parameter=k1" value="5.8691808117458365e-09" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta_pop],Reference=InitialValue>
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</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_A],ParameterGroup=Parameters,Parameter=k1" value="1.4672952029364591e-07" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma_pop],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_R],ParameterGroup=Parameters,Parameter=k1" value="8.8037712176187523e-09" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta_pop],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_I],ParameterGroup=Parameters,Parameter=k1" value="0" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[epsilon],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_I],ParameterGroup=Parameters,Parameter=k1" value="0.016536730284187423" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[zeta],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_D],ParameterGroup=Parameters,Parameter=k1" value="0.016536730284187423" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[eta],Reference=InitialValue>
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</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_A],ParameterGroup=Parameters,Parameter=k1" value="2.5911239839774597e-05" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[theta],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_A],ParameterGroup=Parameters,Parameter=k1" value="0.0010075866853569793" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[mu],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_R],ParameterGroup=Parameters,Parameter=k1" value="0.0010075866853569793" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[nu],Reference=InitialValue>
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</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[death]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[death],ParameterGroup=Parameters,Parameter=k1" value="0.046948210260077484" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[tau],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_I],ParameterGroup=Parameters,Parameter=k1" value="0.094496475210014572" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[lambda],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_D],ParameterGroup=Parameters,Parameter=k1" value="0.094496475210014572" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[rho],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_A],ParameterGroup=Parameters,Parameter=k1" value="0.055019214976714081" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[kappa],Reference=InitialValue>
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</ModelParameter>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_R],ParameterGroup=Parameters,Parameter=k1" value="0.055019214976714081" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[xi],Reference=InitialValue>
</InitialExpression>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_T]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_T],ParameterGroup=Parameters,Parameter=k1" value="0.055019214976714081" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[sigma],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
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<ModelParameterSet key="ModelParameterSet_18" name="Model9 - 6/04">
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<dcterms:W3CDTF>2020-06-05T00:23:01Z</dcterms:W3CDTF>
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<ModelParameterGroup cn="String=Initial Time" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9" value="0" type="Model" simulationType="time"/>
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<ModelParameterGroup cn="String=Initial Compartment Sizes" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment]" value="1" type="Compartment" simulationType="fixed"/>
</ModelParameterGroup>
<ModelParameterGroup cn="String=Initial Species Values" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[I]" value="1" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[S]" value="3572663.9999999516" type="Species" simulationType="reactions">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Population],Reference=InitialValue>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[I],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[D],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[A],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[R],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[T],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[H],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[E],Reference=InitialConcentration>
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[D]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[A]" value="4.8541674098845775e-08" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[R]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[T]" value="0" type="Species" simulationType="reactions"/>
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[H]" value="0" type="Species" simulationType="reactions"/>
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<ModelParameterGroup cn="String=Initial Global Quantities" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha]" value="1.0438501678724672" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta]" value="0.020877003357449346" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.02
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</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma]" value="0.5219250839362336" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.5
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta]" value="0.031315505036174016" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.03
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[epsilon]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[zeta]" value="0.010974555777956274" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[eta]" value="0.010974555777956274" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[theta]" value="3.6261087659925404e-05" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[kappa]" value="0.057272637735945972" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[lambda]" value="0.086834533945274101" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[mu]" value="0.0014186920816815385" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[nu]" value="0.0014186920816815385" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[xi]" value="0.057272637735945972" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[rho]" value="0.086834533945274101" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[sigma]" value="0.057272637735945972" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[tau]" value="0.04698101783929088" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[DRT]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[IDARTHE]" value="1.000000048541674" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[IDART]" value="1.000000048541674" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Recovered]" value="0" type="ModelValue" simulationType="ode"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Diagnosed Cumulative infected]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r1]" value="0.09780908972323038" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r2]" value="0.09780908972323038" type="ModelValue" simulationType="assignment"/>
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Perceived CFR]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[CFR]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[R0]" value="11.669540020159113" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma_pop]" value="1.4608844768155806e-07" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Population]" value="3572665" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha_pop]" value="2.9217689536311612e-07" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta_pop]" value="5.8435379072623224e-09" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta_pop]" value="8.7653068608934827e-09" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[scale]" value="0.78222655465241187" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_epsilon]" value="3.6261087511513001e-05" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_theta]" value="0.0054878294478546081" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_mu]" value="0.059999999999999998" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_nu]" value="0.059999999999999998" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[day8x]" value="0.9999999999999204" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[day15x]" value="0.38029781004021868" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_lambda]" value="0.22155041982369297" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_kappa]" value="0.65956060490911395" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_sigma]" value="0.65956060490911395" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_xi]" value="0.65956060490911395" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_rho]" value="0.22155041982369297" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tpeak]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tpeaktime]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[New cases]" value="1.0438499010306679" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[New diagnosed]" value="1.760173899657777e-12" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tnonew]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tot_reduction]" value="0.38029781004018842" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ImmuneRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ApplyRelaxationMay1]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[HiddenRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[InfectedRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_stage4]" value="0.5" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[R(73)]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_beta]" value="0.0001" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_delta],Reference=InitialValue>
</InitialExpression>
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_gamma]" value="0.79999999999999971" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_delta]" value="0.0001" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ImmuneRatio(73)]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[InfectedRatio(73)]" value="0" type="ModelValue" simulationType="fixed"/>
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<ModelParameterGroup cn="String=Kinetic Parameters" type="Group">
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_I],ParameterGroup=Parameters,Parameter=k1" value="2.9217689536311612e-07" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha_pop],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_D],ParameterGroup=Parameters,Parameter=k1" value="5.8435379072623224e-09" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta_pop],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_A],ParameterGroup=Parameters,Parameter=k1" value="1.4608844768155806e-07" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma_pop],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_R],ParameterGroup=Parameters,Parameter=k1" value="8.7653068608934827e-09" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta_pop],Reference=InitialValue>
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</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_I],ParameterGroup=Parameters,Parameter=k1" value="0" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[epsilon],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_I],ParameterGroup=Parameters,Parameter=k1" value="0.010974555777956274" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[zeta],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_D],ParameterGroup=Parameters,Parameter=k1" value="0.010974555777956274" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[eta],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_A],ParameterGroup=Parameters,Parameter=k1" value="3.6261087659925404e-05" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[theta],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_A],ParameterGroup=Parameters,Parameter=k1" value="0.0014186920816815385" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[mu],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_R],ParameterGroup=Parameters,Parameter=k1" value="0.0014186920816815385" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[nu],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[death]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[death],ParameterGroup=Parameters,Parameter=k1" value="0.04698101783929088" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[tau],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_I],ParameterGroup=Parameters,Parameter=k1" value="0.086834533945274101" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[lambda],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_D],ParameterGroup=Parameters,Parameter=k1" value="0.086834533945274101" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[rho],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_A],ParameterGroup=Parameters,Parameter=k1" value="0.057272637735945972" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[kappa],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_R],ParameterGroup=Parameters,Parameter=k1" value="0.057272637735945972" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[xi],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_T]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_T],ParameterGroup=Parameters,Parameter=k1" value="0.057272637735945972" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[sigma],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
</ModelParameterGroup>
</ModelParameterSet>
<ModelParameterSet key="ModelParameterSet_19" name="Model9 - 6/05">
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<dcterms:W3CDTF>2020-06-05T21:06:11Z</dcterms:W3CDTF>
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<ModelParameterGroup cn="String=Initial Time" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9" value="0" type="Model" simulationType="time"/>
</ModelParameterGroup>
<ModelParameterGroup cn="String=Initial Compartment Sizes" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment]" value="1" type="Compartment" simulationType="fixed"/>
</ModelParameterGroup>
<ModelParameterGroup cn="String=Initial Species Values" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[I]" value="1.0000005120000202" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[S]" value="3572663.9999994878" type="Species" simulationType="reactions">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Population],Reference=InitialValue>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[I],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[D],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[A],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[R],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[T],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[H],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[E],Reference=InitialConcentration>
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[D]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[A]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[R]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[T]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[E]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[H]" value="0" type="Species" simulationType="reactions"/>
</ModelParameterGroup>
<ModelParameterGroup cn="String=Initial Global Quantities" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha]" value="1.041638732236543" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta]" value="0.020832774644730861" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.02
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma]" value="0.52081936611827151" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.5
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta]" value="0.031249161967096289" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.03
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[epsilon]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[zeta]" value="0.010056508915260869" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[eta]" value="0.010056508915260869" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[theta]" value="3.8602235432716441e-05" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[kappa]" value="0.058506843089201191" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[lambda]" value="0.08329810021940387" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[mu]" value="0.0015247480693513986" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[nu]" value="0.0015247480693513986" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[xi]" value="0.058506843089201191" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[rho]" value="0.08329810021940387" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[sigma]" value="0.058506843089201191" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[tau]" value="0.047015710004605679" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[DRT]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[IDARTHE]" value="1.0000005120000202" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[IDART]" value="1.0000005120000202" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Recovered]" value="0" type="ModelValue" simulationType="ode"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Diagnosed Cumulative infected]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r1]" value="0.093354609134664743" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r2]" value="0.093354609134664743" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r3]" value="0.060070193393985304" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r4]" value="0.06003159115855259" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r5]" value="0.10552255309380687" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Perceived CFR]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[CFR]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[R0]" value="12.091891823025412" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma_pop]" value="1.4577895383929685e-07" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Population]" value="3572665" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha_pop]" value="2.915579076785937e-07" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta_pop]" value="5.8311581535718744e-09" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta_pop]" value="8.7467372303578108e-09" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[scale]" value="0.78222655465241187" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_epsilon]" value="3.8602235284009412e-05" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_theta]" value="0.0054878294478546081" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_mu]" value="0.059999999999999998" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_nu]" value="0.059999999999999998" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[day8x]" value="0.9999998380183488" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[day15x]" value="0.38007904857033825" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_lambda]" value="0.22155041982369297" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_kappa]" value="0.70237908109664571" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_sigma]" value="0.70237908109664571" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_xi]" value="0.70237908109664571" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_rho]" value="0.22155041982369297" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tpeak]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tpeaktime]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[New cases]" value="1.0416389739973886" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[New diagnosed]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tnonew]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tot_reduction]" value="0.38007898700450637" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ImmuneRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ApplyRelaxationMay1]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[HiddenRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[InfectedRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_stage4]" value="0.5" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[R(73)]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_beta]" value="0.00010000000001195664" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_delta],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_gamma]" value="0.79999999999792137" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_delta]" value="0.00010000000001195664" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ImmuneRatio(73)]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[InfectedRatio(73)]" value="0" type="ModelValue" simulationType="fixed"/>
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<ModelParameterGroup cn="String=Kinetic Parameters" type="Group">
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_I],ParameterGroup=Parameters,Parameter=k1" value="2.915579076785937e-07" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha_pop],Reference=InitialValue>
</InitialExpression>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_D],ParameterGroup=Parameters,Parameter=k1" value="5.8311581535718744e-09" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta_pop],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_A],ParameterGroup=Parameters,Parameter=k1" value="1.4577895383929685e-07" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma_pop],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_R],ParameterGroup=Parameters,Parameter=k1" value="8.7467372303578108e-09" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta_pop],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_I],ParameterGroup=Parameters,Parameter=k1" value="0" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[epsilon],Reference=InitialValue>
</InitialExpression>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_I],ParameterGroup=Parameters,Parameter=k1" value="0.010056508915260869" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[zeta],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_D],ParameterGroup=Parameters,Parameter=k1" value="0.010056508915260869" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[eta],Reference=InitialValue>
</InitialExpression>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_A],ParameterGroup=Parameters,Parameter=k1" value="3.8602235432716441e-05" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[theta],Reference=InitialValue>
</InitialExpression>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_A],ParameterGroup=Parameters,Parameter=k1" value="0.0015247480693513986" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[mu],Reference=InitialValue>
</InitialExpression>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_R],ParameterGroup=Parameters,Parameter=k1" value="0.0015247480693513986" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[nu],Reference=InitialValue>
</InitialExpression>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[death]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[death],ParameterGroup=Parameters,Parameter=k1" value="0.047015710004605679" type="ReactionParameter" simulationType="assignment">
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<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[tau],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_I],ParameterGroup=Parameters,Parameter=k1" value="0.08329810021940387" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[lambda],Reference=InitialValue>
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</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_D],ParameterGroup=Parameters,Parameter=k1" value="0.08329810021940387" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[rho],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_A],ParameterGroup=Parameters,Parameter=k1" value="0.058506843089201191" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[kappa],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_R],ParameterGroup=Parameters,Parameter=k1" value="0.058506843089201191" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[xi],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_T]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_T],ParameterGroup=Parameters,Parameter=k1" value="0.058506843089201191" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[sigma],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
</ModelParameterGroup>
</ModelParameterSet>
<ModelParameterSet key="ModelParameterSet_20" name="Model9 - 6/06">
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<ModelParameterGroup cn="String=Initial Time" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9" value="0" type="Model" simulationType="time"/>
</ModelParameterGroup>
<ModelParameterGroup cn="String=Initial Compartment Sizes" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment]" value="1" type="Compartment" simulationType="fixed"/>
</ModelParameterGroup>
<ModelParameterGroup cn="String=Initial Species Values" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[I]" value="1" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[S]" value="3572663.9999999963" type="Species" simulationType="reactions">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Population],Reference=InitialValue>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[I],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[D],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[A],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[R],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[T],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[H],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[E],Reference=InitialConcentration>
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[D]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[A]" value="3.6885728275859191e-09" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[R]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[T]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[E]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[H]" value="0" type="Species" simulationType="reactions"/>
</ModelParameterGroup>
<ModelParameterGroup cn="String=Initial Global Quantities" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha]" value="1.040963200056191" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta]" value="0.02081926400112382" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.02
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma]" value="0.52048160002809551" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.5
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta]" value="0.03122889600168573" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.03
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[epsilon]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[zeta]" value="0.010001575932308736" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[eta]" value="0.010001575932308736" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[theta]" value="3.862343996630674e-05" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[kappa]" value="0.059071803123382678" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[lambda]" value="0.082207338243907246" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[mu]" value="0.0015357358754182922" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[nu]" value="0.0015357358754182922" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[xi]" value="0.059071803123382678" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[rho]" value="0.082207338243907246" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[sigma]" value="0.059071803123382678" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[tau]" value="0.047047106614280951" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[DRT]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[IDARTHE]" value="1.0000000036885728" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[IDART]" value="1.0000000036885728" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Recovered]" value="0" type="ModelValue" simulationType="ode"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Diagnosed Cumulative infected]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r1]" value="0.092208914176215989" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r2]" value="0.092208914176215989" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r3]" value="0.060646162438767276" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r4]" value="0.060607538998800968" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r5]" value="0.10611890973766364" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Perceived CFR]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[CFR]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[R0]" value="12.220105768379764" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma_pop]" value="1.4568441206441003e-07" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Population]" value="3572665" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha_pop]" value="2.9136882412882007e-07" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta_pop]" value="5.8273764825764015e-09" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta_pop]" value="8.7410647238646018e-09" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[scale]" value="0.78222655465241187" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_epsilon]" value="3.862343996630674e-05" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_theta]" value="0.0054878294478546081" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_mu]" value="0.059999999999999998" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_nu]" value="0.059999999999999998" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[day8x]" value="0.99999992660545034" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[day15x]" value="0.37653401369273065" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_lambda]" value="0.22155041982369297" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_kappa]" value="0.71857092548256485" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_sigma]" value="0.71857092548256485" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_xi]" value="0.71857092548256485" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_rho]" value="0.22155041982369297" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tpeak]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tpeaktime]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[New cases]" value="1.0409629106071996" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[New diagnosed]" value="1.4246537116761505e-13" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tnonew]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tot_reduction]" value="0.3765339860571863" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ImmuneRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ApplyRelaxationMay1]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[HiddenRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[InfectedRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_stage4]" value="0.5" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[R(73)]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_beta]" value="0.00024984013795086181" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_delta],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_gamma]" value="0.79999973702848304" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_delta]" value="0.00024984013795086181" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ImmuneRatio(73)]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[InfectedRatio(73)]" value="0" type="ModelValue" simulationType="fixed"/>
</ModelParameterGroup>
<ModelParameterGroup cn="String=Kinetic Parameters" type="Group">
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_I],ParameterGroup=Parameters,Parameter=k1" value="2.9136882412882007e-07" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha_pop],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_D],ParameterGroup=Parameters,Parameter=k1" value="5.8273764825764015e-09" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta_pop],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_A],ParameterGroup=Parameters,Parameter=k1" value="1.4568441206441003e-07" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma_pop],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_R],ParameterGroup=Parameters,Parameter=k1" value="8.7410647238646018e-09" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta_pop],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_I],ParameterGroup=Parameters,Parameter=k1" value="0" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[epsilon],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_I],ParameterGroup=Parameters,Parameter=k1" value="0.010001575932308736" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[zeta],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_D],ParameterGroup=Parameters,Parameter=k1" value="0.010001575932308736" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[eta],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_A],ParameterGroup=Parameters,Parameter=k1" value="3.862343996630674e-05" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[theta],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_A],ParameterGroup=Parameters,Parameter=k1" value="0.0015357358754182922" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[mu],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_R],ParameterGroup=Parameters,Parameter=k1" value="0.0015357358754182922" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[nu],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[death]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[death],ParameterGroup=Parameters,Parameter=k1" value="0.047047106614280951" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[tau],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_I],ParameterGroup=Parameters,Parameter=k1" value="0.082207338243907246" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[lambda],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_D],ParameterGroup=Parameters,Parameter=k1" value="0.082207338243907246" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[rho],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_A],ParameterGroup=Parameters,Parameter=k1" value="0.059071803123382678" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[kappa],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_R],ParameterGroup=Parameters,Parameter=k1" value="0.059071803123382678" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[xi],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_T]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_T],ParameterGroup=Parameters,Parameter=k1" value="0.059071803123382678" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[sigma],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
</ModelParameterGroup>
</ModelParameterSet>
<ModelParameterSet key="ModelParameterSet_21" name="Model9 - 6/07">
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<ModelParameterGroup cn="String=Initial Time" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9" value="0" type="Model" simulationType="time"/>
</ModelParameterGroup>
<ModelParameterGroup cn="String=Initial Compartment Sizes" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment]" value="1" type="Compartment" simulationType="fixed"/>
</ModelParameterGroup>
<ModelParameterGroup cn="String=Initial Species Values" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[I]" value="1" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[S]" value="3572664" type="Species" simulationType="reactions">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Population],Reference=InitialValue>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[I],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[D],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[A],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[R],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[T],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[H],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[E],Reference=InitialConcentration>
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[D]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[A]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[R]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[T]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[E]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[H]" value="0" type="Species" simulationType="reactions"/>
</ModelParameterGroup>
<ModelParameterGroup cn="String=Initial Global Quantities" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha]" value="1.0407256466551218" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta]" value="0.020814512933102436" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.02
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma]" value="0.5203628233275609" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.5
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta]" value="0.031221769399653654" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.03
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[epsilon]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[zeta]" value="0.0099358767320774522" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[eta]" value="0.0099358767320774522" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[theta]" value="3.878666106289887e-05" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[kappa]" value="0.05947534156728139" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[lambda]" value="0.081507316094329429" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[mu]" value="0.0015490412193699705" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[nu]" value="0.0015490412193699705" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[xi]" value="0.05947534156728139" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[rho]" value="0.081507316094329429" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[sigma]" value="0.05947534156728139" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[tau]" value="0.047074340583989356" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[DRT]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[IDARTHE]" value="1" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[IDART]" value="1" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Recovered]" value="0" type="ModelValue" simulationType="ode"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Diagnosed Cumulative infected]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r1]" value="0.09144319282640688" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r2]" value="0.09144319282640688" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r3]" value="0.061063169447714262" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r4]" value="0.061024382786651357" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r5]" value="0.10654968215127075" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Perceived CFR]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[CFR]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[R0]" value="12.307089612112559" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma_pop]" value="1.4565116609801392e-07" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Population]" value="3572665" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha_pop]" value="2.9130233219602784e-07" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta_pop]" value="5.826046643920557e-09" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta_pop]" value="8.7390699658808351e-09" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[scale]" value="0.78222655465241187" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_epsilon]" value="3.8786660268548052e-05" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_theta]" value="0.0054878294478546081" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_mu]" value="0.059999999999999998" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_nu]" value="0.059999999999999998" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[day8x]" value="0.99999984822511967" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[day15x]" value="0.37281457038201649" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_lambda]" value="0.22155041982369297" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_kappa]" value="0.72969328910854869" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_sigma]" value="0.72969328910854869" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_xi]" value="0.72969328910854869" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_rho]" value="0.22155041982369297" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tpeak]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tpeaktime]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[New cases]" value="1.0407253553527895" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[New diagnosed]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tnonew]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tot_reduction]" value="0.37281451379812969" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ImmuneRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ApplyRelaxationMay1]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[HiddenRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[InfectedRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_stage4]" value="0.29999999999999999" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[R(73)]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_beta]" value="0.00010692048290583381" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_delta],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_gamma]" value="0.79999997111060561" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_delta]" value="0.00010692048290583381" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ImmuneRatio(73)]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[InfectedRatio(73)]" value="0" type="ModelValue" simulationType="fixed"/>
</ModelParameterGroup>
<ModelParameterGroup cn="String=Kinetic Parameters" type="Group">
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_I],ParameterGroup=Parameters,Parameter=k1" value="2.9130233219602784e-07" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha_pop],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_D],ParameterGroup=Parameters,Parameter=k1" value="5.826046643920557e-09" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta_pop],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_A],ParameterGroup=Parameters,Parameter=k1" value="1.4565116609801392e-07" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma_pop],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_R],ParameterGroup=Parameters,Parameter=k1" value="8.7390699658808351e-09" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta_pop],Reference=InitialValue>
</InitialExpression>
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</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_I],ParameterGroup=Parameters,Parameter=k1" value="0" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[epsilon],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_I],ParameterGroup=Parameters,Parameter=k1" value="0.0099358767320774522" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[zeta],Reference=InitialValue>
</InitialExpression>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_D],ParameterGroup=Parameters,Parameter=k1" value="0.0099358767320774522" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[eta],Reference=InitialValue>
</InitialExpression>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_A],ParameterGroup=Parameters,Parameter=k1" value="3.878666106289887e-05" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[theta],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_A],ParameterGroup=Parameters,Parameter=k1" value="0.0015490412193699705" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[mu],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_R],ParameterGroup=Parameters,Parameter=k1" value="0.0015490412193699705" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[nu],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[death]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[death],ParameterGroup=Parameters,Parameter=k1" value="0.047074340583989356" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[tau],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_I],ParameterGroup=Parameters,Parameter=k1" value="0.081507316094329429" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[lambda],Reference=InitialValue>
</InitialExpression>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_D],ParameterGroup=Parameters,Parameter=k1" value="0.081507316094329429" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[rho],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_A],ParameterGroup=Parameters,Parameter=k1" value="0.05947534156728139" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[kappa],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_R],ParameterGroup=Parameters,Parameter=k1" value="0.05947534156728139" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[xi],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_T]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_T],ParameterGroup=Parameters,Parameter=k1" value="0.05947534156728139" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[sigma],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
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</ModelParameterGroup>
</ModelParameterSet>
<ModelParameterSet key="ModelParameterSet_22" name="Model9 - 6/08">
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<dcterms:W3CDTF>2020-06-09T01:45:51Z</dcterms:W3CDTF>
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<ModelParameterGroup cn="String=Initial Time" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9" value="0" type="Model" simulationType="time"/>
</ModelParameterGroup>
<ModelParameterGroup cn="String=Initial Compartment Sizes" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment]" value="1" type="Compartment" simulationType="fixed"/>
</ModelParameterGroup>
<ModelParameterGroup cn="String=Initial Species Values" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[I]" value="1" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[S]" value="3572664" type="Species" simulationType="reactions">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Population],Reference=InitialValue>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[I],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[D],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[A],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[R],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[T],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[H],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[E],Reference=InitialConcentration>
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[D]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[A]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[R]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[T]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[E]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[H]" value="0" type="Species" simulationType="reactions"/>
</ModelParameterGroup>
<ModelParameterGroup cn="String=Initial Global Quantities" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha]" value="1.0403939933062316" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta]" value="0.020807879866124632" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.02
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma]" value="0.52019699665311581" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.5
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta]" value="0.031211819799186948" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.03
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[epsilon]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[zeta]" value="0.0099127120259453055" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[eta]" value="0.0099127120259453055" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[theta]" value="3.8700864084385382e-05" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[kappa]" value="0.059743012451510022" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[lambda]" value="0.080829725445383846" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[mu]" value="0.001550934357825762" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[nu]" value="0.001550934357825762" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[xi]" value="0.059743012451510022" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[rho]" value="0.080829725445383846" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[sigma]" value="0.059743012451510022" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[tau]" value="0.047099308816816073" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[DRT]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[IDARTHE]" value="1" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[IDART]" value="1" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Recovered]" value="0" type="ModelValue" simulationType="ode"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Diagnosed Cumulative infected]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r1]" value="0.090742437471329151" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r2]" value="0.090742437471329151" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r3]" value="0.061332647673420171" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r4]" value="0.061293946809335781" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r5]" value="0.1068423212683261" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Perceived CFR]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[CFR]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[R0]" value="12.391914376321429" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma_pop]" value="1.456047506981807e-07" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Population]" value="3572665" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha_pop]" value="2.9120950139636141e-07" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta_pop]" value="5.8241900279272288e-09" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta_pop]" value="8.7362850418908427e-09" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[scale]" value="0.78222655465241187" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_epsilon]" value="3.8700863291791683e-05" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_theta]" value="0.0054878294478546081" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_mu]" value="0.059999999999999998" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_nu]" value="0.059999999999999998" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[day8x]" value="0.99999998573775783" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[day15x]" value="0.37206607738055963" type="ModelValue" simulationType="fixed"/>
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_xi]" value="0.73912180354834944" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_rho]" value="0.22155041982369297" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tpeak]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tpeaktime]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[New cases]" value="1.0403937020967302" type="ModelValue" simulationType="assignment"/>
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tnonew]" value="-1" type="ModelValue" simulationType="fixed"/>
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ImmuneRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ApplyRelaxationMay1]" value="0" type="ModelValue" simulationType="fixed"/>
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_stage4]" value="0.29999999999999999" type="ModelValue" simulationType="fixed"/>
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_beta]" value="0.00010116969347701537" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_delta],Reference=InitialValue>
</InitialExpression>
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_gamma]" value="0.79999999981432257" type="ModelValue" simulationType="fixed"/>
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ImmuneRatio(73)]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[InfectedRatio(73)]" value="0" type="ModelValue" simulationType="fixed"/>
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_I],ParameterGroup=Parameters,Parameter=k1" value="2.9120950139636141e-07" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha_pop],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_D],ParameterGroup=Parameters,Parameter=k1" value="5.8241900279272288e-09" type="ReactionParameter" simulationType="assignment">
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<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta_pop],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_A],ParameterGroup=Parameters,Parameter=k1" value="1.456047506981807e-07" type="ReactionParameter" simulationType="assignment">
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<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma_pop],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_R],ParameterGroup=Parameters,Parameter=k1" value="8.7362850418908427e-09" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta_pop],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_I],ParameterGroup=Parameters,Parameter=k1" value="0" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[epsilon],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_I],ParameterGroup=Parameters,Parameter=k1" value="0.0099127120259453055" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[zeta],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_D],ParameterGroup=Parameters,Parameter=k1" value="0.0099127120259453055" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[eta],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_A],ParameterGroup=Parameters,Parameter=k1" value="3.8700864084385382e-05" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[theta],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_A],ParameterGroup=Parameters,Parameter=k1" value="0.001550934357825762" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[mu],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_R],ParameterGroup=Parameters,Parameter=k1" value="0.001550934357825762" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[nu],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[death]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[death],ParameterGroup=Parameters,Parameter=k1" value="0.047099308816816073" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[tau],Reference=InitialValue>
</InitialExpression>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_I],ParameterGroup=Parameters,Parameter=k1" value="0.080829725445383846" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[lambda],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_D],ParameterGroup=Parameters,Parameter=k1" value="0.080829725445383846" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[rho],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_A],ParameterGroup=Parameters,Parameter=k1" value="0.059743012451510022" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[kappa],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_R],ParameterGroup=Parameters,Parameter=k1" value="0.059743012451510022" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[xi],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_T]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_T],ParameterGroup=Parameters,Parameter=k1" value="0.059743012451510022" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[sigma],Reference=InitialValue>
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</ModelParameter>
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<ModelParameterSet key="ModelParameterSet_23" name="Model9 - 6/09">
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<ModelParameterGroup cn="String=Initial Time" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9" value="0" type="Model" simulationType="time"/>
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<ModelParameterGroup cn="String=Initial Compartment Sizes" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment]" value="1" type="Compartment" simulationType="fixed"/>
</ModelParameterGroup>
<ModelParameterGroup cn="String=Initial Species Values" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[I]" value="1" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[S]" value="3572663.9999993243" type="Species" simulationType="reactions">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Population],Reference=InitialValue>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[I],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[D],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[A],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[R],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[T],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[H],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[E],Reference=InitialConcentration>
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[D]" value="0" type="Species" simulationType="reactions"/>
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[H]" value="0" type="Species" simulationType="reactions"/>
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<ModelParameterGroup cn="String=Initial Global Quantities" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha]" value="1.0404246803042152" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta]" value="0.020808493606084305" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.02
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</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma]" value="0.5202123401521076" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.5
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta]" value="0.031212740409126454" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.03
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[epsilon]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[zeta]" value="0.0099549693315937431" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[eta]" value="0.0099549693315937431" type="ModelValue" simulationType="assignment"/>
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[kappa]" value="0.05999929630338259" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[lambda]" value="0.080674916652305931" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[mu]" value="0.0015527045562339738" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[nu]" value="0.0015527045562339738" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[xi]" value="0.05999929630338259" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[rho]" value="0.080674916652305931" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[sigma]" value="0.05999929630338259" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[tau]" value="0.047122691798466156" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[DRT]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[IDARTHE]" value="1.0000006757126016" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[IDART]" value="1.0000006757126016" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Recovered]" value="0" type="ModelValue" simulationType="ode"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Diagnosed Cumulative infected]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r1]" value="0.090629885983899677" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r2]" value="0.090629885983899677" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r3]" value="0.061590623804412756" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r4]" value="0.061552000859616561" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r5]" value="0.10712198810184875" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Perceived CFR]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[CFR]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[R0]" value="12.407721834730916" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma_pop]" value="1.4560904539107574e-07" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Population]" value="3572665" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha_pop]" value="2.9121809078215148e-07" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta_pop]" value="5.8243618156430302e-09" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta_pop]" value="8.7365427234645437e-09" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[scale]" value="0.78222655465241187" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_epsilon]" value="3.8622944796191359e-05" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_theta]" value="0.0054878294478546081" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_mu]" value="0.059999999999999998" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_nu]" value="0.059999999999999998" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[day8x]" value="0.99999986656419393" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[day15x]" value="0.3678670571398503" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_lambda]" value="0.22155041982369297" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_kappa]" value="0.74371686756081246" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_sigma]" value="0.74371686756081246" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_xi]" value="0.74371686756081246" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_rho]" value="0.22155041982369297" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tpeak]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tpeaktime]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[New cases]" value="1.0404247405998632" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[New diagnosed]" value="2.6098010513580061e-11" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tnonew]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tot_reduction]" value="0.36786700805321298" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ImmuneRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ApplyRelaxationMay1]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[HiddenRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[InfectedRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_stage4]" value="0.29999999999999999" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[R(73)]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_beta]" value="0.0001" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_delta],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_gamma]" value="0.79999998818667717" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_delta]" value="0.0001" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ImmuneRatio(73)]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[InfectedRatio(73)]" value="0" type="ModelValue" simulationType="fixed"/>
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<ModelParameterGroup cn="String=Kinetic Parameters" type="Group">
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_I],ParameterGroup=Parameters,Parameter=k1" value="2.9121809078215148e-07" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha_pop],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_D],ParameterGroup=Parameters,Parameter=k1" value="5.8243618156430302e-09" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta_pop],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_A],ParameterGroup=Parameters,Parameter=k1" value="1.4560904539107574e-07" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma_pop],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_R],ParameterGroup=Parameters,Parameter=k1" value="8.7365427234645437e-09" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta_pop],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_I],ParameterGroup=Parameters,Parameter=k1" value="0" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[epsilon],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_I],ParameterGroup=Parameters,Parameter=k1" value="0.0099549693315937431" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[zeta],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_D],ParameterGroup=Parameters,Parameter=k1" value="0.0099549693315937431" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[eta],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_A],ParameterGroup=Parameters,Parameter=k1" value="3.8622944796191359e-05" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[theta],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_A],ParameterGroup=Parameters,Parameter=k1" value="0.0015527045562339738" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[mu],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_R],ParameterGroup=Parameters,Parameter=k1" value="0.0015527045562339738" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[nu],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[death]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[death],ParameterGroup=Parameters,Parameter=k1" value="0.047122691798466156" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[tau],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_I],ParameterGroup=Parameters,Parameter=k1" value="0.080674916652305931" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[lambda],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_D],ParameterGroup=Parameters,Parameter=k1" value="0.080674916652305931" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[rho],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_A],ParameterGroup=Parameters,Parameter=k1" value="0.05999929630338259" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[kappa],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_R],ParameterGroup=Parameters,Parameter=k1" value="0.05999929630338259" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[xi],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_T]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_T],ParameterGroup=Parameters,Parameter=k1" value="0.05999929630338259" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[sigma],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
</ModelParameterGroup>
</ModelParameterSet>
<ModelParameterSet key="ModelParameterSet_24" name="Model9 - 6/10">
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<dcterms:W3CDTF>2020-06-10T23:26:38Z</dcterms:W3CDTF>
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<ModelParameterGroup cn="String=Initial Time" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9" value="0" type="Model" simulationType="time"/>
</ModelParameterGroup>
<ModelParameterGroup cn="String=Initial Compartment Sizes" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment]" value="1" type="Compartment" simulationType="fixed"/>
</ModelParameterGroup>
<ModelParameterGroup cn="String=Initial Species Values" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[I]" value="1.0000001024" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[S]" value="3572663.9999998976" type="Species" simulationType="reactions">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Population],Reference=InitialValue>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[I],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[D],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[A],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[R],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[T],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[H],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[E],Reference=InitialConcentration>
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[D]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[A]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[R]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[T]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[E]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[H]" value="0" type="Species" simulationType="reactions"/>
</ModelParameterGroup>
<ModelParameterGroup cn="String=Initial Global Quantities" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha]" value="1.0345803990202787" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta]" value="0.020691607980405573" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.02
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma]" value="0.51729019951013933" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.5
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta]" value="0.031037411970608358" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.03
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[epsilon]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[zeta]" value="0.0094945337977164774" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[eta]" value="0.0094945337977164774" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[theta]" value="3.7984686022501089e-05" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[kappa]" value="0.0629790088576727" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[lambda]" value="0.07220886777528164" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[mu]" value="0.0015750839785991864" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[nu]" value="0.0015750839785991864" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[xi]" value="0.0629790088576727" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[rho]" value="0.07220886777528164" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[sigma]" value="0.0629790088576727" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[tau]" value="0.047148396848768717" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[DRT]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[IDARTHE]" value="1.0000001024" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[IDART]" value="1.0000001024" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Recovered]" value="0" type="ModelValue" simulationType="ode"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Diagnosed Cumulative infected]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r1]" value="0.081703401572998116" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r2]" value="0.081703401572998116" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r3]" value="0.064592077522294386" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r4]" value="0.064554092836271892" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r5]" value="0.11012740570644142" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Perceived CFR]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[CFR]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[R0]" value="13.593322975424522" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma_pop]" value="1.4479112917391901e-07" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Population]" value="3572665" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha_pop]" value="2.8958225834783801e-07" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta_pop]" value="5.7916451669567601e-09" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta_pop]" value="8.6874677504351397e-09" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[scale]" value="0.78222655465241187" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_epsilon]" value="3.7984686022501089e-05" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_theta]" value="0.0054878294478546081" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_mu]" value="0.059999999999999998" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_nu]" value="0.059999999999999998" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[day8x]" value="0.99999990097738756" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[day15x]" value="0.37501984433163105" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_lambda]" value="0.22155041982369297" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_kappa]" value="0.8721783182318712" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_sigma]" value="0.8721783182318712" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_xi]" value="0.8721783182318712" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_rho]" value="0.22155041982369297" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tpeak]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tpeaktime]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[New cases]" value="1.0345802153789938" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[New diagnosed]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tnonew]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tot_reduction]" value="0.37501980719618633" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ImmuneRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ApplyRelaxationMay1]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[HiddenRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[InfectedRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_stage4]" value="0.29999999999999999" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[R(73)]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_beta]" value="0.0001027508855402461" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_delta],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_gamma]" value="0.7999743163877393" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_delta]" value="0.0001027508855402461" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ImmuneRatio(73)]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[InfectedRatio(73)]" value="0" type="ModelValue" simulationType="fixed"/>
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<ModelParameterGroup cn="String=Kinetic Parameters" type="Group">
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_I],ParameterGroup=Parameters,Parameter=k1" value="2.8958225834783801e-07" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha_pop],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_D],ParameterGroup=Parameters,Parameter=k1" value="5.7916451669567601e-09" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta_pop],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_A],ParameterGroup=Parameters,Parameter=k1" value="1.4479112917391901e-07" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma_pop],Reference=InitialValue>
</InitialExpression>
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</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_R],ParameterGroup=Parameters,Parameter=k1" value="8.6874677504351397e-09" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta_pop],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_I],ParameterGroup=Parameters,Parameter=k1" value="0" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[epsilon],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_I],ParameterGroup=Parameters,Parameter=k1" value="0.0094945337977164774" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[zeta],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_D],ParameterGroup=Parameters,Parameter=k1" value="0.0094945337977164774" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[eta],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_A],ParameterGroup=Parameters,Parameter=k1" value="3.7984686022501089e-05" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[theta],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_A],ParameterGroup=Parameters,Parameter=k1" value="0.0015750839785991864" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[mu],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_R],ParameterGroup=Parameters,Parameter=k1" value="0.0015750839785991864" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[nu],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[death]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[death],ParameterGroup=Parameters,Parameter=k1" value="0.047148396848768717" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[tau],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_I],ParameterGroup=Parameters,Parameter=k1" value="0.07220886777528164" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[lambda],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_D],ParameterGroup=Parameters,Parameter=k1" value="0.07220886777528164" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[rho],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_A],ParameterGroup=Parameters,Parameter=k1" value="0.0629790088576727" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[kappa],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_R],ParameterGroup=Parameters,Parameter=k1" value="0.0629790088576727" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[xi],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_T]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_T],ParameterGroup=Parameters,Parameter=k1" value="0.0629790088576727" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[sigma],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
</ModelParameterGroup>
</ModelParameterSet>
<ModelParameterSet key="ModelParameterSet_25" name="Model9 - 6/11">
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<dcterms:W3CDTF>2020-06-11T23:35:31Z</dcterms:W3CDTF>
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<ModelParameterGroup cn="String=Initial Time" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9" value="0" type="Model" simulationType="time"/>
</ModelParameterGroup>
<ModelParameterGroup cn="String=Initial Compartment Sizes" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment]" value="1" type="Compartment" simulationType="fixed"/>
</ModelParameterGroup>
<ModelParameterGroup cn="String=Initial Species Values" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[I]" value="1" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[S]" value="3572663.9999999944" type="Species" simulationType="reactions">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Population],Reference=InitialValue>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[I],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[D],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[A],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[R],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[T],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[H],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[E],Reference=InitialConcentration>
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[D]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[A]" value="5.6161015553341442e-09" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[R]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[T]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[E]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[H]" value="0" type="Species" simulationType="reactions"/>
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<ModelParameterGroup cn="String=Initial Global Quantities" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha]" value="1.0345261936004395" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta]" value="0.02069052387200879" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.02
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma]" value="0.51726309680021976" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.5
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta]" value="0.031035785808013184" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.03
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[epsilon]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[zeta]" value="0.014409984573897951" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[eta]" value="0.014409984573897951" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[theta]" value="2.539713117509494e-05" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[kappa]" value="0.066476872054813535" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[lambda]" value="0.066476872054813535" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[mu]" value="0.0010008051348571801" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[nu]" value="0.0010008051348571801" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[xi]" value="0.066476872054813535" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[rho]" value="0.066476872054813535" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[sigma]" value="0.055768136779346736" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[tau]" value="0.047186851467168285" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[DRT]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[IDARTHE]" value="1.0000000056161016" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[IDART]" value="1.0000000056161016" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Recovered]" value="0" type="ModelValue" simulationType="ode"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Diagnosed Cumulative infected]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r1]" value="0.080886856628711479" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r2]" value="0.080886856628711479" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r3]" value="0.067503074320845805" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r4]" value="0.067477677189670709" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r5]" value="0.10295498824651503" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Perceived CFR]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[CFR]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[R0]" value="14.154952729713878" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma_pop]" value="1.4478354304146059e-07" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Population]" value="3572665" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha_pop]" value="2.8956708608292117e-07" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta_pop]" value="5.7913417216584233e-09" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta_pop]" value="8.6870125824876345e-09" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[scale]" value="0.78222655465241187" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_epsilon]" value="2.539713117509494e-05" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_theta]" value="0.0054878294478546081" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_mu]" value="0.059999999999999998" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_nu]" value="0.059999999999999998" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[day8x]" value="0.99999993195278292" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[day15x]" value="0.37899322648332989" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_lambda]" value="0.22155041982369297" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_kappa]" value="1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_sigma]" value="0.83891036168734134" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_xi]" value="1" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_rho]" value="0.22155041982369297" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tpeak]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tpeaktime]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[New cases]" value="1.0345259069383532" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[New diagnosed]" value="1.4263286789347597e-13" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tnonew]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tot_reduction]" value="0.37899320069389553" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ImmuneRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ApplyRelaxationMay1]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[HiddenRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[InfectedRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_stage4]" value="0.10000000000000001" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[R(73)]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_beta]" value="0.0001" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_delta],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_gamma]" value="0.3645986787065818" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_delta]" value="0.0001" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ImmuneRatio(73)]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[InfectedRatio(73)]" value="0" type="ModelValue" simulationType="fixed"/>
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<ModelParameterGroup cn="String=Kinetic Parameters" type="Group">
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_I],ParameterGroup=Parameters,Parameter=k1" value="2.8956708608292117e-07" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha_pop],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_D],ParameterGroup=Parameters,Parameter=k1" value="5.7913417216584233e-09" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta_pop],Reference=InitialValue>
</InitialExpression>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_A],ParameterGroup=Parameters,Parameter=k1" value="1.4478354304146059e-07" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma_pop],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_R],ParameterGroup=Parameters,Parameter=k1" value="8.6870125824876345e-09" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta_pop],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_I],ParameterGroup=Parameters,Parameter=k1" value="0" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[epsilon],Reference=InitialValue>
</InitialExpression>
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</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_I],ParameterGroup=Parameters,Parameter=k1" value="0.014409984573897951" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[zeta],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_D],ParameterGroup=Parameters,Parameter=k1" value="0.014409984573897951" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[eta],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_A],ParameterGroup=Parameters,Parameter=k1" value="2.539713117509494e-05" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[theta],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_A],ParameterGroup=Parameters,Parameter=k1" value="0.0010008051348571801" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[mu],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_R],ParameterGroup=Parameters,Parameter=k1" value="0.0010008051348571801" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[nu],Reference=InitialValue>
</InitialExpression>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[death]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[death],ParameterGroup=Parameters,Parameter=k1" value="0.047186851467168285" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[tau],Reference=InitialValue>
</InitialExpression>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_I],ParameterGroup=Parameters,Parameter=k1" value="0.066476872054813535" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[lambda],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_D],ParameterGroup=Parameters,Parameter=k1" value="0.066476872054813535" type="ReactionParameter" simulationType="assignment">
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<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[rho],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_A]" type="Reaction">
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<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[kappa],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_R]" type="Reaction">
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<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[xi],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_T]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_T],ParameterGroup=Parameters,Parameter=k1" value="0.055768136779346736" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[sigma],Reference=InitialValue>
</InitialExpression>
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<ModelParameterSet key="ModelParameterSet_1" name="Model9 - 6/13">
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<dcterms:W3CDTF>2020-06-15T12:02:59Z</dcterms:W3CDTF>
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<ModelParameterGroup cn="String=Initial Time" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9" value="0" type="Model" simulationType="time"/>
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<ModelParameterGroup cn="String=Initial Compartment Sizes" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment]" value="1" type="Compartment" simulationType="fixed"/>
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<ModelParameterGroup cn="String=Initial Species Values" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[I]" value="1" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[S]" value="3572663.9999998407" type="Species" simulationType="reactions">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Population],Reference=InitialValue>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[I],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[D],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[A],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[R],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[T],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[H],Reference=InitialConcentration>-<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[E],Reference=InitialConcentration>
</InitialExpression>
</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[D]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[A]" value="1.5928576091280386e-07" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[R]" value="0" type="Species" simulationType="reactions"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[T]" value="0" type="Species" simulationType="reactions"/>
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[H]" value="0" type="Species" simulationType="reactions"/>
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<ModelParameterGroup cn="String=Initial Global Quantities" type="Group">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha]" value="1.0346365507295143" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta]" value="0.020692731014590286" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.02
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma]" value="0.51731827536475716" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.5
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta]" value="0.031039096521885429" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue>*0.03
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</ModelParameter>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[epsilon]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[zeta]" value="0.014551939904496592" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[eta]" value="0.014551939904496592" type="ModelValue" simulationType="assignment"/>
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[kappa]" value="0.066477631006351928" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[lambda]" value="0.066477631006351928" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[mu]" value="0.001" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[nu]" value="0.001" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[xi]" value="0.066477631006351928" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[rho]" value="0.066477631006351928" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[sigma]" value="0.056471154899469606" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[tau]" value="0.04724367719790034" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[DRT]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[IDARTHE]" value="1.0000001592857608" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[IDART]" value="1.0000001592857608" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Recovered]" value="0" type="ModelValue" simulationType="ode"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Diagnosed Cumulative infected]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r1]" value="0.081029570910848517" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[r2]" value="0.081029570910848517" type="ModelValue" simulationType="assignment"/>
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Perceived CFR]" value="NaN" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[CFR]" value="NaN" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[R0]" value="14.144961136443856" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma_pop]" value="1.4479898769259283e-07" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Population]" value="3572665" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha_pop]" value="2.8959797538518565e-07" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta_pop]" value="5.7919595077037127e-09" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta_pop]" value="8.6879392615555703e-09" type="ModelValue" simulationType="assignment"/>
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_theta]" value="0.0054878294478546081" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_mu]" value="0.059999999999999998" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_nu]" value="0.059999999999999998" type="ModelValue" simulationType="fixed"/>
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[day15x]" value="0.37322742716366192" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_lambda]" value="0.22155041982369297" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_kappa]" value="1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_sigma]" value="0.84947604246116704" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_xi]" value="1" type="ModelValue" simulationType="assignment"/>
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tpeak]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tpeaktime]" value="-1" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[New cases]" value="1.0346363435329049" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[New diagnosed]" value="4.0074912478238448e-12" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Tnonew]" value="-1" type="ModelValue" simulationType="fixed"/>
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ImmuneRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ApplyRelaxationMay1]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[HiddenRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[InfectedRatio]" value="0" type="ModelValue" simulationType="assignment"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_stage4]" value="0.10000000000000001" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[R(73)]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_beta]" value="0.0001" type="ModelValue" simulationType="fixed">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_delta],Reference=InitialValue>
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_gamma]" value="0.0054047843123728751" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_delta]" value="0.0001" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[ImmuneRatio(73)]" value="0" type="ModelValue" simulationType="fixed"/>
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[InfectedRatio(73)]" value="0" type="ModelValue" simulationType="fixed"/>
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<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha_pop],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_D],ParameterGroup=Parameters,Parameter=k1" value="5.7919595077037127e-09" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[beta_pop],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_A],ParameterGroup=Parameters,Parameter=k1" value="1.4479898769259283e-07" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[gamma_pop],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_R],ParameterGroup=Parameters,Parameter=k1" value="8.6879392615555703e-09" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[delta_pop],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_I],ParameterGroup=Parameters,Parameter=k1" value="0" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[epsilon],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_I]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_I],ParameterGroup=Parameters,Parameter=k1" value="0.014551939904496592" type="ReactionParameter" simulationType="assignment">
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<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[zeta],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_D],ParameterGroup=Parameters,Parameter=k1" value="0.014551939904496592" type="ReactionParameter" simulationType="assignment">
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<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[eta],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_A],ParameterGroup=Parameters,Parameter=k1" value="2.5159130513979989e-05" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[theta],Reference=InitialValue>
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<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_A],ParameterGroup=Parameters,Parameter=k1" value="0.001" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[mu],Reference=InitialValue>
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<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[nu],Reference=InitialValue>
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<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[lambda],Reference=InitialValue>
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<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_D]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_D],ParameterGroup=Parameters,Parameter=k1" value="0.066477631006351928" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[rho],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_A]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_A],ParameterGroup=Parameters,Parameter=k1" value="0.066477631006351928" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[kappa],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_R]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_R],ParameterGroup=Parameters,Parameter=k1" value="0.066477631006351928" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[xi],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
<ModelParameterGroup cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_T]" type="Reaction">
<ModelParameter cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_T],ParameterGroup=Parameters,Parameter=k1" value="0.056471154899469606" type="ReactionParameter" simulationType="assignment">
<InitialExpression>
<CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[sigma],Reference=InitialValue>
</InitialExpression>
</ModelParameter>
</ModelParameterGroup>
</ModelParameterGroup>
</ModelParameterSet>
</ListOfModelParameterSets>
<StateTemplate>
<StateTemplateVariable objectReference="Model_0"/>
<StateTemplateVariable objectReference="ModelValue_19"/>
<StateTemplateVariable objectReference="Metabolite_0"/>
<StateTemplateVariable objectReference="Metabolite_7"/>
<StateTemplateVariable objectReference="Metabolite_4"/>
<StateTemplateVariable objectReference="Metabolite_5"/>
<StateTemplateVariable objectReference="Metabolite_3"/>
<StateTemplateVariable objectReference="Metabolite_2"/>
<StateTemplateVariable objectReference="Metabolite_1"/>
<StateTemplateVariable objectReference="Metabolite_6"/>
<StateTemplateVariable objectReference="ModelValue_6"/>
<StateTemplateVariable objectReference="ModelValue_8"/>
<StateTemplateVariable objectReference="ModelValue_11"/>
<StateTemplateVariable objectReference="ModelValue_12"/>
<StateTemplateVariable objectReference="ModelValue_13"/>
<StateTemplateVariable objectReference="ModelValue_14"/>
<StateTemplateVariable objectReference="ModelValue_16"/>
<StateTemplateVariable objectReference="ModelValue_17"/>
<StateTemplateVariable objectReference="ModelValue_18"/>
<StateTemplateVariable objectReference="ModelValue_20"/>
<StateTemplateVariable objectReference="ModelValue_21"/>
<StateTemplateVariable objectReference="ModelValue_22"/>
<StateTemplateVariable objectReference="ModelValue_23"/>
<StateTemplateVariable objectReference="ModelValue_24"/>
<StateTemplateVariable objectReference="ModelValue_25"/>
<StateTemplateVariable objectReference="ModelValue_26"/>
<StateTemplateVariable objectReference="ModelValue_27"/>
<StateTemplateVariable objectReference="ModelValue_28"/>
<StateTemplateVariable objectReference="ModelValue_29"/>
<StateTemplateVariable objectReference="ModelValue_31"/>
<StateTemplateVariable objectReference="ModelValue_32"/>
<StateTemplateVariable objectReference="ModelValue_33"/>
<StateTemplateVariable objectReference="ModelValue_37"/>
<StateTemplateVariable objectReference="ModelValue_44"/>
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<StateTemplateVariable objectReference="ModelValue_48"/>
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<StateTemplateVariable objectReference="ModelValue_51"/>
<StateTemplateVariable objectReference="ModelValue_52"/>
<StateTemplateVariable objectReference="ModelValue_54"/>
<StateTemplateVariable objectReference="ModelValue_55"/>
<StateTemplateVariable objectReference="Compartment_0"/>
<StateTemplateVariable objectReference="ModelValue_0"/>
<StateTemplateVariable objectReference="ModelValue_1"/>
<StateTemplateVariable objectReference="ModelValue_2"/>
<StateTemplateVariable objectReference="ModelValue_3"/>
<StateTemplateVariable objectReference="ModelValue_4"/>
<StateTemplateVariable objectReference="ModelValue_5"/>
<StateTemplateVariable objectReference="ModelValue_7"/>
<StateTemplateVariable objectReference="ModelValue_9"/>
<StateTemplateVariable objectReference="ModelValue_10"/>
<StateTemplateVariable objectReference="ModelValue_15"/>
<StateTemplateVariable objectReference="ModelValue_30"/>
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<StateTemplateVariable objectReference="ModelValue_35"/>
<StateTemplateVariable objectReference="ModelValue_36"/>
<StateTemplateVariable objectReference="ModelValue_38"/>
<StateTemplateVariable objectReference="ModelValue_39"/>
<StateTemplateVariable objectReference="ModelValue_40"/>
<StateTemplateVariable objectReference="ModelValue_41"/>
<StateTemplateVariable objectReference="ModelValue_42"/>
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<StateTemplateVariable objectReference="ModelValue_59"/>
<StateTemplateVariable objectReference="ModelValue_60"/>
<StateTemplateVariable objectReference="ModelValue_61"/>
<StateTemplateVariable objectReference="ModelValue_62"/>
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</InitialState>
</Model>
<ListOfTasks>
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<Report reference="Report_10" target="" append="1" confirmOverwrite="1"/>
<Problem>
<Parameter name="JacobianRequested" type="bool" value="1"/>
<Parameter name="StabilityAnalysisRequested" type="bool" value="1"/>
</Problem>
<Method name="Enhanced Newton" type="EnhancedNewton">
<Parameter name="Resolution" type="unsignedFloat" value="9.9999999999999994e-12"/>
<Parameter name="Derivation Factor" type="unsignedFloat" value="0.001"/>
<Parameter name="Use Newton" type="bool" value="1"/>
<Parameter name="Use Integration" type="bool" value="1"/>
<Parameter name="Use Back Integration" type="bool" value="0"/>
<Parameter name="Accept Negative Concentrations" type="bool" value="0"/>
<Parameter name="Iteration Limit" type="unsignedInteger" value="50"/>
<Parameter name="Maximum duration for forward integration" type="unsignedFloat" value="1000000000"/>
<Parameter name="Maximum duration for backward integration" type="unsignedFloat" value="1000000"/>
<Parameter name="Target Criterion" type="string" value="Distance and Rate"/>
</Method>
</Task>
<Task key="Task_12" name="Time-Course" type="timeCourse" scheduled="false" updateModel="false">
<Report reference="Report_25" target="timecourses.txt" append="1" confirmOverwrite="0"/>
<Problem>
<Parameter name="AutomaticStepSize" type="bool" value="1"/>
<Parameter name="StepNumber" type="unsignedInteger" value="1288"/>
<Parameter name="StepSize" type="float" value="0.16304347829999999"/>
<Parameter name="Duration" type="float" value="210"/>
<Parameter name="TimeSeriesRequested" type="bool" value="1"/>
<Parameter name="OutputStartTime" type="float" value="0"/>
<Parameter name="Output Event" type="bool" value="0"/>
<Parameter name="Start in Steady State" type="bool" value="0"/>
<Parameter name="Use Values" type="bool" value="0"/>
<Parameter name="Values" type="string" value="0 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 42 44 46 48 50 52 54 56 58 60 62 64 66 68 70 72 74 76 78 80 82 84 86 88 90 92 94 96 98 100 102 104 106 108 110 112 114 116 118 120 122 124 126 128 130 132 134 136 138 140 142 144 146 148 150 152 154 156 158 160 162 164 166 168 170 172 174 176 178 180 182 184 186 188 190 192 194 196 198 200 400 800"/>
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<Method name="Deterministic (LSODA)" type="Deterministic(LSODA)">
<Parameter name="Integrate Reduced Model" type="bool" value="0"/>
<Parameter name="Relative Tolerance" type="unsignedFloat" value="1e-08"/>
<Parameter name="Absolute Tolerance" type="unsignedFloat" value="9.9999999999999998e-13"/>
<Parameter name="Max Internal Steps" type="unsignedInteger" value="100000"/>
<Parameter name="Max Internal Step Size" type="unsignedFloat" value="0"/>
</Method>
</Task>
<Task key="Task_11" name="Scan" type="scan" scheduled="true" updateModel="false">
<Report reference="Report_24" target="" append="0" confirmOverwrite="0"/>
<Problem>
<Parameter name="Subtask" type="unsignedInteger" value="1"/>
<ParameterGroup name="ScanItems">
<ParameterGroup name="ScanItem">
<Parameter name="Number of steps" type="unsignedInteger" value="10"/>
<Parameter name="Type" type="unsignedInteger" value="1"/>
<Parameter name="Object" type="cn" value="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_stage4],Reference=InitialValue"/>
<Parameter name="Minimum" type="float" value="0"/>
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<Parameter name="log" type="bool" value="0"/>
<Parameter name="Values" type="string" value="0 0.5 0.6 0.7 0.8 0.9 1"/>
<Parameter name="Use Values" type="bool" value="1"/>
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</ParameterGroup>
<Parameter name="Output in subtask" type="bool" value="1"/>
<Parameter name="Adjust initial conditions" type="bool" value="0"/>
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<Method name="Scan Framework" type="ScanFramework">
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<Task key="Task_10" name="Elementary Flux Modes" type="fluxMode" scheduled="false" updateModel="false">
<Report reference="Report_9" target="" append="1" confirmOverwrite="1"/>
<Problem>
</Problem>
<Method name="EFM Algorithm" type="EFMAlgorithm">
</Method>
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<Task key="Task_9" name="Optimization" type="optimization" scheduled="false" updateModel="false">
<Report reference="Report_8" target="" append="1" confirmOverwrite="1"/>
<Problem>
<Parameter name="Subtask" type="cn" value="CN=Root,Vector=TaskList[Time-Course]"/>
<ParameterText name="ObjectiveExpression" type="expression">
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<Parameter name="Randomize Start Values" type="bool" value="1"/>
<Parameter name="Calculate Statistics" type="bool" value="1"/>
<ParameterGroup name="OptimizationItemList">
<ParameterGroup name="OptimizationItem">
<Parameter name="ObjectCN" type="cn" value="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[day8x],Reference=InitialValue"/>
<Parameter name="LowerBound" type="cn" value="0.6"/>
<Parameter name="UpperBound" type="cn" value="1"/>
<Parameter name="StartValue" type="float" value="0.72416446759999997"/>
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<ParameterGroup name="OptimizationItem">
<Parameter name="ObjectCN" type="cn" value="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[day15x],Reference=InitialValue"/>
<Parameter name="LowerBound" type="cn" value="1e-6"/>
<Parameter name="UpperBound" type="cn" value="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[day8x],Reference=InitialValue"/>
<Parameter name="StartValue" type="float" value="0.21627369042058708"/>
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</ParameterGroup>
<ParameterGroup name="OptimizationConstraintList">
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</Problem>
<Method name="Hooke & Jeeves" type="HookeJeeves">
<Parameter name="Log Verbosity" type="unsignedInteger" value="0"/>
<Parameter name="Iteration Limit" type="unsignedInteger" value="50"/>
<Parameter name="Tolerance" type="float" value="1.0000000000000001e-05"/>
<Parameter name="Rho" type="float" value="0.20000000000000001"/>
</Method>
</Task>
<Task key="Task_8" name="Parameter Estimation" type="parameterFitting" scheduled="false" updateModel="true">
<Report reference="Report_0" target="" append="0" confirmOverwrite="0"/>
<Problem>
<Parameter name="Maximize" type="bool" value="0"/>
<Parameter name="Randomize Start Values" type="bool" value="0"/>
<Parameter name="Calculate Statistics" type="bool" value="0"/>
<ParameterGroup name="OptimizationItemList">
<ParameterGroup name="FitItem">
<Parameter name="ObjectCN" type="cn" value="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[A],Reference=InitialConcentration"/>
<Parameter name="LowerBound" type="cn" value="0"/>
<Parameter name="UpperBound" type="cn" value="10"/>
<Parameter name="StartValue" type="float" value="1.592857609e-07"/>
<ParameterGroup name="Affected Experiments">
</ParameterGroup>
<ParameterGroup name="Affected Cross Validation Experiments">
</ParameterGroup>
</ParameterGroup>
<ParameterGroup name="FitItem">
<Parameter name="ObjectCN" type="cn" value="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[I],Reference=InitialConcentration"/>
<Parameter name="LowerBound" type="cn" value="1"/>
<Parameter name="UpperBound" type="cn" value="10"/>
<Parameter name="StartValue" type="float" value="1"/>
<ParameterGroup name="Affected Experiments">
</ParameterGroup>
<ParameterGroup name="Affected Cross Validation Experiments">
</ParameterGroup>
</ParameterGroup>
<ParameterGroup name="FitItem">
<Parameter name="ObjectCN" type="cn" value="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[day8x],Reference=InitialValue"/>
<Parameter name="LowerBound" type="cn" value="0.5"/>
<Parameter name="UpperBound" type="cn" value="1"/>
<Parameter name="StartValue" type="float" value="0.99999998357937459"/>
<ParameterGroup name="Affected Experiments">
</ParameterGroup>
<ParameterGroup name="Affected Cross Validation Experiments">
</ParameterGroup>
</ParameterGroup>
<ParameterGroup name="FitItem">
<Parameter name="ObjectCN" type="cn" value="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[day15x],Reference=InitialValue"/>
<Parameter name="LowerBound" type="cn" value="0.1"/>
<Parameter name="UpperBound" type="cn" value="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[day8x],Reference=InitialValue"/>
<Parameter name="StartValue" type="float" value="0.37322742716366192"/>
<ParameterGroup name="Affected Experiments">
</ParameterGroup>
<ParameterGroup name="Affected Cross Validation Experiments">
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</ParameterGroup>
<ParameterGroup name="FitItem">
<Parameter name="ObjectCN" type="cn" value="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[alpha],Reference=InitialValue"/>
<Parameter name="LowerBound" type="cn" value="0.005"/>
<Parameter name="UpperBound" type="cn" value="3"/>
<Parameter name="StartValue" type="float" value="1.0346365507295143"/>
<ParameterGroup name="Affected Experiments">
</ParameterGroup>
<ParameterGroup name="Affected Cross Validation Experiments">
</ParameterGroup>
</ParameterGroup>
<ParameterGroup name="FitItem">
<Parameter name="ObjectCN" type="cn" value="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_gamma],Reference=InitialValue"/>
<Parameter name="LowerBound" type="cn" value="0.005"/>
<Parameter name="UpperBound" type="cn" value="0.8"/>
<Parameter name="StartValue" type="float" value="0.0054047843123728751"/>
<ParameterGroup name="Affected Experiments">
</ParameterGroup>
<ParameterGroup name="Affected Cross Validation Experiments">
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</ParameterGroup>
<ParameterGroup name="FitItem">
<Parameter name="ObjectCN" type="cn" value="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_delta],Reference=InitialValue"/>
<Parameter name="LowerBound" type="cn" value="0.0001"/>
<Parameter name="UpperBound" type="cn" value="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_gamma],Reference=InitialValue"/>
<Parameter name="StartValue" type="float" value="0.0001"/>
<ParameterGroup name="Affected Experiments">
</ParameterGroup>
<ParameterGroup name="Affected Cross Validation Experiments">
</ParameterGroup>
</ParameterGroup>
<ParameterGroup name="FitItem">
<Parameter name="ObjectCN" type="cn" value="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[theta],Reference=InitialValue"/>
<Parameter name="LowerBound" type="cn" value="1e-06"/>
<Parameter name="UpperBound" type="cn" value="0.1"/>
<Parameter name="StartValue" type="float" value="2.5159130513979989e-05"/>
<ParameterGroup name="Affected Experiments">
</ParameterGroup>
<ParameterGroup name="Affected Cross Validation Experiments">
</ParameterGroup>
</ParameterGroup>
<ParameterGroup name="FitItem">
<Parameter name="ObjectCN" type="cn" value="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[lambda],Reference=InitialValue"/>
<Parameter name="LowerBound" type="cn" value="0.01"/>
<Parameter name="UpperBound" type="cn" value="10"/>
<Parameter name="StartValue" type="float" value="0.066477631006351928"/>
<ParameterGroup name="Affected Experiments">
</ParameterGroup>
<ParameterGroup name="Affected Cross Validation Experiments">
</ParameterGroup>
</ParameterGroup>
<ParameterGroup name="FitItem">
<Parameter name="ObjectCN" type="cn" value="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_kappa],Reference=InitialValue"/>
<Parameter name="LowerBound" type="cn" value="0.1"/>
<Parameter name="UpperBound" type="cn" value="1"/>
<Parameter name="StartValue" type="float" value="1"/>
<ParameterGroup name="Affected Experiments">
</ParameterGroup>
<ParameterGroup name="Affected Cross Validation Experiments">
</ParameterGroup>
</ParameterGroup>
<ParameterGroup name="FitItem">
<Parameter name="ObjectCN" type="cn" value="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_sigma],Reference=InitialValue"/>
<Parameter name="LowerBound" type="cn" value="1e-06"/>
<Parameter name="UpperBound" type="cn" value="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_kappa],Reference=InitialValue"/>
<Parameter name="StartValue" type="float" value="0.84947604246116704"/>
<ParameterGroup name="Affected Experiments">
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<ParameterGroup name="Affected Cross Validation Experiments">
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</ParameterGroup>
<ParameterGroup name="FitItem">
<Parameter name="ObjectCN" type="cn" value="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[zeta],Reference=InitialValue"/>
<Parameter name="LowerBound" type="cn" value="0.0001"/>
<Parameter name="UpperBound" type="cn" value="5"/>
<Parameter name="StartValue" type="float" value="0.014551939904496592"/>
<ParameterGroup name="Affected Experiments">
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<ParameterGroup name="Affected Cross Validation Experiments">
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</ParameterGroup>
<ParameterGroup name="FitItem">
<Parameter name="ObjectCN" type="cn" value="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[mu],Reference=InitialValue"/>
<Parameter name="LowerBound" type="cn" value="0.001"/>
<Parameter name="UpperBound" type="cn" value="5"/>
<Parameter name="StartValue" type="float" value="0.001"/>
<ParameterGroup name="Affected Experiments">
</ParameterGroup>
<ParameterGroup name="Affected Cross Validation Experiments">
</ParameterGroup>
</ParameterGroup>
<ParameterGroup name="FitItem">
<Parameter name="ObjectCN" type="cn" value="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[tau],Reference=InitialValue"/>
<Parameter name="LowerBound" type="cn" value="0.025"/>
<Parameter name="UpperBound" type="cn" value="0.2"/>
<Parameter name="StartValue" type="float" value="0.04724367719790034"/>
<ParameterGroup name="Affected Experiments">
</ParameterGroup>
<ParameterGroup name="Affected Cross Validation Experiments">
</ParameterGroup>
</ParameterGroup>
<ParameterGroup name="FitItem">
<Parameter name="ObjectCN" type="cn" value="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_epsilon],Reference=InitialValue"/>
<Parameter name="LowerBound" type="cn" value="1e-06"/>
<Parameter name="UpperBound" type="cn" value="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[theta],Reference=InitialValue"/>
<Parameter name="StartValue" type="float" value="2.5159129998721177e-05"/>
<ParameterGroup name="Affected Experiments">
</ParameterGroup>
<ParameterGroup name="Affected Cross Validation Experiments">
</ParameterGroup>
</ParameterGroup>
<ParameterGroup name="FitItem">
<Parameter name="ObjectCN" type="cn" value="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[f_stage4],Reference=InitialValue"/>
<Parameter name="LowerBound" type="cn" value="0.1"/>
<Parameter name="UpperBound" type="cn" value="1"/>
<Parameter name="StartValue" type="float" value="0.10000000000000001"/>
<ParameterGroup name="Affected Experiments">
</ParameterGroup>
<ParameterGroup name="Affected Cross Validation Experiments">
</ParameterGroup>
</ParameterGroup>
</ParameterGroup>
<ParameterGroup name="OptimizationConstraintList">
</ParameterGroup>
<Parameter name="Steady-State" type="cn" value="CN=Root,Vector=TaskList[Steady-State]"/>
<Parameter name="Time-Course" type="cn" value="CN=Root,Vector=TaskList[Time-Course]"/>
<Parameter name="Create Parameter Sets" type="bool" value="0"/>
<ParameterGroup name="Experiment Set">
<ParameterGroup name="Experiment">
<Parameter name="Key" type="key" value="Experiment_0"/>
<Parameter name="File Name" type="file" value="CT-COVID19.tsv"/>
<Parameter name="First Row" type="unsignedInteger" value="1"/>
<Parameter name="Last Row" type="unsignedInteger" value="99"/>
<Parameter name="Experiment Type" type="unsignedInteger" value="1"/>
<Parameter name="Normalize Weights per Experiment" type="bool" value="1"/>
<Parameter name="Separator" type="string" value="	"/>
<Parameter name="Weight Method" type="unsignedInteger" value="1"/>
<Parameter name="Data is Row Oriented" type="bool" value="1"/>
<Parameter name="Row containing Names" type="unsignedInteger" value="1"/>
<Parameter name="Number of Columns" type="unsignedInteger" value="13"/>
<ParameterGroup name="Object Map">
<ParameterGroup name="0">
<Parameter name="Role" type="unsignedInteger" value="3"/>
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<ParameterGroup name="1">
<Parameter name="Role" type="unsignedInteger" value="2"/>
<Parameter name="Object CN" type="cn" value="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[Diagnosed Cumulative infected],Reference=Value"/>
</ParameterGroup>
<ParameterGroup name="2">
<Parameter name="Role" type="unsignedInteger" value="0"/>
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<ParameterGroup name="3">
<Parameter name="Role" type="unsignedInteger" value="0"/>
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<ParameterGroup name="4">
<Parameter name="Role" type="unsignedInteger" value="2"/>
<Parameter name="Object CN" type="cn" value="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[T],Reference=Concentration"/>
</ParameterGroup>
<ParameterGroup name="5">
<Parameter name="Role" type="unsignedInteger" value="2"/>
<Parameter name="Object CN" type="cn" value="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Compartments[compartment],Vector=Metabolites[E],Reference=Concentration"/>
</ParameterGroup>
<ParameterGroup name="6">
<Parameter name="Role" type="unsignedInteger" value="0"/>
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<ParameterGroup name="7">
<Parameter name="Role" type="unsignedInteger" value="0"/>
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<ParameterGroup name="8">
<Parameter name="Role" type="unsignedInteger" value="0"/>
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<ParameterGroup name="9">
<Parameter name="Role" type="unsignedInteger" value="0"/>
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<ParameterGroup name="10">
<Parameter name="Role" type="unsignedInteger" value="0"/>
</ParameterGroup>
<ParameterGroup name="11">
<Parameter name="Role" type="unsignedInteger" value="0"/>
<Parameter name="Object CN" type="cn" value="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[IDART],Reference=Value"/>
</ParameterGroup>
<ParameterGroup name="12">
<Parameter name="Role" type="unsignedInteger" value="0"/>
</ParameterGroup>
</ParameterGroup>
</ParameterGroup>
</ParameterGroup>
<ParameterGroup name="Validation Set">
<Parameter name="Weight" type="unsignedFloat" value="1"/>
<Parameter name="Threshold" type="unsignedInteger" value="5"/>
</ParameterGroup>
</Problem>
<Method name="Hooke & Jeeves" type="HookeJeeves">
<Parameter name="Log Verbosity" type="unsignedInteger" value="0"/>
<Parameter name="Iteration Limit" type="unsignedInteger" value="50000"/>
<Parameter name="Tolerance" type="float" value="1.0000000000000001e-09"/>
<Parameter name="Rho" type="float" value="0.20000000000000001"/>
</Method>
</Task>
<Task key="Task_7" name="Metabolic Control Analysis" type="metabolicControlAnalysis" scheduled="false" updateModel="false">
<Report reference="Report_6" target="" append="1" confirmOverwrite="1"/>
<Problem>
<Parameter name="Steady-State" type="key" value="Task_13"/>
</Problem>
<Method name="MCA Method (Reder)" type="MCAMethod(Reder)">
<Parameter name="Modulation Factor" type="unsignedFloat" value="1.0000000000000001e-09"/>
<Parameter name="Use Reder" type="bool" value="1"/>
<Parameter name="Use Smallbone" type="bool" value="1"/>
</Method>
</Task>
<Task key="Task_6" name="Lyapunov Exponents" type="lyapunovExponents" scheduled="false" updateModel="false">
<Report reference="Report_5" target="" append="1" confirmOverwrite="1"/>
<Problem>
<Parameter name="ExponentNumber" type="unsignedInteger" value="3"/>
<Parameter name="DivergenceRequested" type="bool" value="1"/>
<Parameter name="TransientTime" type="float" value="0"/>
</Problem>
<Method name="Wolf Method" type="WolfMethod">
<Parameter name="Orthonormalization Interval" type="unsignedFloat" value="1"/>
<Parameter name="Overall time" type="unsignedFloat" value="1000"/>
<Parameter name="Relative Tolerance" type="unsignedFloat" value="9.9999999999999995e-07"/>
<Parameter name="Absolute Tolerance" type="unsignedFloat" value="9.9999999999999998e-13"/>
<Parameter name="Max Internal Steps" type="unsignedInteger" value="10000"/>
</Method>
</Task>
<Task key="Task_5" name="Time Scale Separation Analysis" type="timeScaleSeparationAnalysis" scheduled="false" updateModel="false">
<Report reference="Report_4" target="" append="1" confirmOverwrite="1"/>
<Problem>
<Parameter name="StepNumber" type="unsignedInteger" value="100"/>
<Parameter name="StepSize" type="float" value="0.01"/>
<Parameter name="Duration" type="float" value="1"/>
<Parameter name="TimeSeriesRequested" type="bool" value="1"/>
<Parameter name="OutputStartTime" type="float" value="0"/>
</Problem>
<Method name="ILDM (LSODA,Deuflhard)" type="TimeScaleSeparation(ILDM,Deuflhard)">
<Parameter name="Deuflhard Tolerance" type="unsignedFloat" value="0.0001"/>
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</Task>
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<Problem>
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<ParameterGroup name="TargetFunctions">
<Parameter name="SingleObject" type="cn" value=""/>
<Parameter name="ObjectListType" type="unsignedInteger" value="43"/>
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<ParameterGroup name="ListOfVariables">
<ParameterGroup name="Variables">
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<Parameter name="ObjectListType" type="unsignedInteger" value="41"/>
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<ParameterGroup name="Variables">
<Parameter name="SingleObject" type="cn" value=""/>
<Parameter name="ObjectListType" type="unsignedInteger" value="0"/>
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</ParameterGroup>
</Problem>
<Method name="Sensitivities Method" type="SensitivitiesMethod">
<Parameter name="Delta factor" type="unsignedFloat" value="0.001"/>
<Parameter name="Delta minimum" type="unsignedFloat" value="9.9999999999999998e-13"/>
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<Task key="Task_3" name="Moieties" type="moieties" scheduled="false" updateModel="false">
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<Problem>
</Problem>
<Method name="Householder Reduction" type="Householder">
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</Task>
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<Problem>
<Parameter name="AutomaticStepSize" type="bool" value="0"/>
<Parameter name="StepNumber" type="unsignedInteger" value="100"/>
<Parameter name="StepSize" type="float" value="0.01"/>
<Parameter name="Duration" type="float" value="1"/>
<Parameter name="TimeSeriesRequested" type="bool" value="1"/>
<Parameter name="OutputStartTime" type="float" value="0"/>
<Parameter name="Output Event" type="bool" value="0"/>
<Parameter name="Start in Steady State" type="bool" value="0"/>
<Parameter name="Use Values" type="bool" value="0"/>
<Parameter name="Values" type="string" value=""/>
<Parameter name="LimitCrossings" type="bool" value="0"/>
<Parameter name="NumCrossingsLimit" type="unsignedInteger" value="0"/>
<Parameter name="LimitOutTime" type="bool" value="0"/>
<Parameter name="LimitOutCrossings" type="bool" value="0"/>
<Parameter name="PositiveDirection" type="bool" value="1"/>
<Parameter name="NumOutCrossingsLimit" type="unsignedInteger" value="0"/>
<Parameter name="LimitUntilConvergence" type="bool" value="0"/>
<Parameter name="ConvergenceTolerance" type="float" value="0"/>
<Parameter name="Threshold" type="float" value="0"/>
<Parameter name="DelayOutputUntilConvergence" type="bool" value="0"/>
<Parameter name="OutputConvergenceTolerance" type="float" value="0"/>
<ParameterText name="TriggerExpression" type="expression">
</ParameterText>
<Parameter name="SingleVariable" type="cn" value=""/>
</Problem>
<Method name="Deterministic (LSODA)" type="Deterministic(LSODA)">
<Parameter name="Integrate Reduced Model" type="bool" value="0"/>
<Parameter name="Relative Tolerance" type="unsignedFloat" value="9.9999999999999995e-07"/>
<Parameter name="Absolute Tolerance" type="unsignedFloat" value="9.9999999999999998e-13"/>
<Parameter name="Max Internal Steps" type="unsignedInteger" value="100000"/>
<Parameter name="Max Internal Step Size" type="unsignedFloat" value="0"/>
</Method>
</Task>
<Task key="Task_1" name="Linear Noise Approximation" type="linearNoiseApproximation" scheduled="false" updateModel="false">
<Report reference="Report_1" target="" append="1" confirmOverwrite="1"/>
<Problem>
<Parameter name="Steady-State" type="key" value="Task_13"/>
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<Method name="Linear Noise Approximation" type="LinearNoiseApproximation">
</Method>
</Task>
<Task key="Task_14" name="Time-Course Sensitivities" type="timeSensitivities" scheduled="false" updateModel="false">
<Problem>
<Parameter name="AutomaticStepSize" type="bool" value="0"/>
<Parameter name="StepNumber" type="unsignedInteger" value="100"/>
<Parameter name="StepSize" type="float" value="0.01"/>
<Parameter name="Duration" type="float" value="1"/>
<Parameter name="TimeSeriesRequested" type="bool" value="1"/>
<Parameter name="OutputStartTime" type="float" value="0"/>
<Parameter name="Output Event" type="bool" value="0"/>
<Parameter name="Start in Steady State" type="bool" value="0"/>
<Parameter name="Use Values" type="bool" value="0"/>
<Parameter name="Values" type="string" value=""/>
<ParameterGroup name="ListOfParameters">
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<ParameterGroup name="ListOfTargets">
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</Problem>
<Method name="LSODA Sensitivities" type="Sensitivities(LSODA)">
<Parameter name="Integrate Reduced Model" type="bool" value="0"/>
<Parameter name="Relative Tolerance" type="unsignedFloat" value="9.9999999999999995e-07"/>
<Parameter name="Absolute Tolerance" type="unsignedFloat" value="9.9999999999999998e-13"/>
<Parameter name="Max Internal Steps" type="unsignedInteger" value="10000"/>
<Parameter name="Max Internal Step Size" type="unsignedFloat" value="0"/>
</Method>
</Task>
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<ListOfReports>
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<Comment>
Automatically generated report.
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Automatically generated report.
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<Comment>
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<Header>
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<PlotItem name="lambda" type="Curve2D">
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<Parameter name="Line subtype" type="unsignedInteger" value="0"/>
<Parameter name="Line width" type="unsignedFloat" value="1"/>
<Parameter name="Symbol subtype" type="unsignedInteger" value="1"/>
<Parameter name="Color" type="string" value="auto"/>
<Parameter name="Recording Activity" type="string" value="during"/>
<ListOfChannels>
<ChannelSpec cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Reference=Time"/>
<ChannelSpec cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[lambda],Reference=Value"/>
</ListOfChannels>
</PlotItem>
<PlotItem name="mu" type="Curve2D">
<Parameter name="Line type" type="unsignedInteger" value="0"/>
<Parameter name="Line subtype" type="unsignedInteger" value="0"/>
<Parameter name="Line width" type="unsignedFloat" value="1"/>
<Parameter name="Symbol subtype" type="unsignedInteger" value="1"/>
<Parameter name="Color" type="string" value="auto"/>
<Parameter name="Recording Activity" type="string" value="during"/>
<ListOfChannels>
<ChannelSpec cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Reference=Time"/>
<ChannelSpec cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[mu],Reference=Value"/>
</ListOfChannels>
</PlotItem>
<PlotItem name="nu" type="Curve2D">
<Parameter name="Line type" type="unsignedInteger" value="0"/>
<Parameter name="Line subtype" type="unsignedInteger" value="0"/>
<Parameter name="Line width" type="unsignedFloat" value="1"/>
<Parameter name="Symbol subtype" type="unsignedInteger" value="1"/>
<Parameter name="Color" type="string" value="auto"/>
<Parameter name="Recording Activity" type="string" value="during"/>
<ListOfChannels>
<ChannelSpec cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Reference=Time"/>
<ChannelSpec cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[nu],Reference=Value"/>
</ListOfChannels>
</PlotItem>
<PlotItem name="rho" type="Curve2D">
<Parameter name="Line type" type="unsignedInteger" value="0"/>
<Parameter name="Line subtype" type="unsignedInteger" value="0"/>
<Parameter name="Line width" type="unsignedFloat" value="1"/>
<Parameter name="Symbol subtype" type="unsignedInteger" value="1"/>
<Parameter name="Color" type="string" value="auto"/>
<Parameter name="Recording Activity" type="string" value="during"/>
<ListOfChannels>
<ChannelSpec cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Reference=Time"/>
<ChannelSpec cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[rho],Reference=Value"/>
</ListOfChannels>
</PlotItem>
<PlotItem name="sigma" type="Curve2D">
<Parameter name="Line type" type="unsignedInteger" value="0"/>
<Parameter name="Line subtype" type="unsignedInteger" value="0"/>
<Parameter name="Line width" type="unsignedFloat" value="1"/>
<Parameter name="Symbol subtype" type="unsignedInteger" value="1"/>
<Parameter name="Color" type="string" value="auto"/>
<Parameter name="Recording Activity" type="string" value="during"/>
<ListOfChannels>
<ChannelSpec cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Reference=Time"/>
<ChannelSpec cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[sigma],Reference=Value"/>
</ListOfChannels>
</PlotItem>
<PlotItem name="tau" type="Curve2D">
<Parameter name="Line type" type="unsignedInteger" value="0"/>
<Parameter name="Line subtype" type="unsignedInteger" value="0"/>
<Parameter name="Line width" type="unsignedFloat" value="1"/>
<Parameter name="Symbol subtype" type="unsignedInteger" value="1"/>
<Parameter name="Color" type="string" value="auto"/>
<Parameter name="Recording Activity" type="string" value="during"/>
<ListOfChannels>
<ChannelSpec cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Reference=Time"/>
<ChannelSpec cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[tau],Reference=Value"/>
</ListOfChannels>
</PlotItem>
<PlotItem name="theta" type="Curve2D">
<Parameter name="Line type" type="unsignedInteger" value="0"/>
<Parameter name="Line subtype" type="unsignedInteger" value="0"/>
<Parameter name="Line width" type="unsignedFloat" value="1"/>
<Parameter name="Symbol subtype" type="unsignedInteger" value="1"/>
<Parameter name="Color" type="string" value="auto"/>
<Parameter name="Recording Activity" type="string" value="during"/>
<ListOfChannels>
<ChannelSpec cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Reference=Time"/>
<ChannelSpec cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[theta],Reference=Value"/>
</ListOfChannels>
</PlotItem>
<PlotItem name="xi" type="Curve2D">
<Parameter name="Line type" type="unsignedInteger" value="0"/>
<Parameter name="Line subtype" type="unsignedInteger" value="0"/>
<Parameter name="Line width" type="unsignedFloat" value="1"/>
<Parameter name="Symbol subtype" type="unsignedInteger" value="1"/>
<Parameter name="Color" type="string" value="auto"/>
<Parameter name="Recording Activity" type="string" value="during"/>
<ListOfChannels>
<ChannelSpec cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Reference=Time"/>
<ChannelSpec cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[xi],Reference=Value"/>
</ListOfChannels>
</PlotItem>
<PlotItem name="zeta" type="Curve2D">
<Parameter name="Line type" type="unsignedInteger" value="0"/>
<Parameter name="Line subtype" type="unsignedInteger" value="0"/>
<Parameter name="Line width" type="unsignedFloat" value="1"/>
<Parameter name="Symbol subtype" type="unsignedInteger" value="1"/>
<Parameter name="Color" type="string" value="auto"/>
<Parameter name="Recording Activity" type="string" value="during"/>
<ListOfChannels>
<ChannelSpec cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Reference=Time"/>
<ChannelSpec cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[zeta],Reference=Value"/>
</ListOfChannels>
</PlotItem>
<PlotItem name="R(73)" type="Curve2D">
<Parameter name="Line type" type="unsignedInteger" value="0"/>
<Parameter name="Line subtype" type="unsignedInteger" value="0"/>
<Parameter name="Line width" type="unsignedFloat" value="1"/>
<Parameter name="Symbol subtype" type="unsignedInteger" value="0"/>
<Parameter name="Color" type="string" value="auto"/>
<Parameter name="Recording Activity" type="string" value="during"/>
<ListOfChannels>
<ChannelSpec cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Reference=Time"/>
<ChannelSpec cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Values[R(73)],Reference=Value"/>
</ListOfChannels>
</PlotItem>
</ListOfPlotItems>
</PlotSpecification>
<PlotSpecification name="Parameter Estimation Result" type="Plot2D" active="1" taskTypes="Parameter Estimation">
<Parameter name="log X" type="bool" value="0"/>
<Parameter name="log Y" type="bool" value="0"/>
<ListOfPlotItems>
<PlotItem name="Acc Inf (data)" type="Curve2D">
<Parameter name="Line type" type="unsignedInteger" value="3"/>
<Parameter name="Line subtype" type="unsignedInteger" value="1"/>
<Parameter name="Line width" type="unsignedFloat" value="1"/>
<Parameter name="Symbol subtype" type="unsignedInteger" value="1"/>
<Parameter name="Color" type="string" value="#FF0000"/>
<Parameter name="Recording Activity" type="string" value="after"/>
<ListOfChannels>
<ChannelSpec cn="CN=Root,Vector=TaskList[Parameter Estimation],Problem=Parameter Estimation,ParameterGroup=Experiment Set,ParameterGroup=Experiment,Vector=Fitted Points[0],Reference=Independent Value"/>
<ChannelSpec cn="CN=Root,Vector=TaskList[Parameter Estimation],Problem=Parameter Estimation,ParameterGroup=Experiment Set,ParameterGroup=Experiment,Vector=Fitted Points[0],Reference=Measured Value"/>
</ListOfChannels>
</PlotItem>
<PlotItem name="Acc Inf (model)" type="Curve2D">
<Parameter name="Line type" type="unsignedInteger" value="0"/>
<Parameter name="Line subtype" type="unsignedInteger" value="0"/>
<Parameter name="Line width" type="unsignedFloat" value="1"/>
<Parameter name="Symbol subtype" type="unsignedInteger" value="1"/>
<Parameter name="Color" type="string" value="#FF0000"/>
<Parameter name="Recording Activity" type="string" value="after"/>
<ListOfChannels>
<ChannelSpec cn="CN=Root,Vector=TaskList[Parameter Estimation],Problem=Parameter Estimation,ParameterGroup=Experiment Set,ParameterGroup=Experiment,Vector=Fitted Points[0],Reference=Independent Value"/>
<ChannelSpec cn="CN=Root,Vector=TaskList[Parameter Estimation],Problem=Parameter Estimation,ParameterGroup=Experiment Set,ParameterGroup=Experiment,Vector=Fitted Points[0],Reference=Fitted Value"/>
</ListOfChannels>
</PlotItem>
<PlotItem name="E (data)" type="Curve2D">
<Parameter name="Line type" type="unsignedInteger" value="3"/>
<Parameter name="Line subtype" type="unsignedInteger" value="1"/>
<Parameter name="Line width" type="unsignedFloat" value="1"/>
<Parameter name="Symbol subtype" type="unsignedInteger" value="1"/>
<Parameter name="Color" type="string" value="#00E600"/>
<Parameter name="Recording Activity" type="string" value="after"/>
<ListOfChannels>
<ChannelSpec cn="CN=Root,Vector=TaskList[Parameter Estimation],Problem=Parameter Estimation,ParameterGroup=Experiment Set,ParameterGroup=Experiment,Vector=Fitted Points[0],Reference=Independent Value"/>
<ChannelSpec cn="CN=Root,Vector=TaskList[Parameter Estimation],Problem=Parameter Estimation,ParameterGroup=Experiment Set,ParameterGroup=Experiment,Vector=Fitted Points[2],Reference=Measured Value"/>
</ListOfChannels>
</PlotItem>
<PlotItem name="E (model)" type="Curve2D">
<Parameter name="Line type" type="unsignedInteger" value="0"/>
<Parameter name="Line subtype" type="unsignedInteger" value="0"/>
<Parameter name="Line width" type="unsignedFloat" value="1"/>
<Parameter name="Symbol subtype" type="unsignedInteger" value="1"/>
<Parameter name="Color" type="string" value="#00E600"/>
<Parameter name="Recording Activity" type="string" value="after"/>
<ListOfChannels>
<ChannelSpec cn="CN=Root,Vector=TaskList[Parameter Estimation],Problem=Parameter Estimation,ParameterGroup=Experiment Set,ParameterGroup=Experiment,Vector=Fitted Points[0],Reference=Independent Value"/>
<ChannelSpec cn="CN=Root,Vector=TaskList[Parameter Estimation],Problem=Parameter Estimation,ParameterGroup=Experiment Set,ParameterGroup=Experiment,Vector=Fitted Points[2],Reference=Fitted Value"/>
</ListOfChannels>
</PlotItem>
<PlotItem name="T (data)" type="Curve2D">
<Parameter name="Line type" type="unsignedInteger" value="3"/>
<Parameter name="Line subtype" type="unsignedInteger" value="1"/>
<Parameter name="Line width" type="unsignedFloat" value="1"/>
<Parameter name="Symbol subtype" type="unsignedInteger" value="1"/>
<Parameter name="Color" type="string" value="#0000FF"/>
<Parameter name="Recording Activity" type="string" value="after"/>
<ListOfChannels>
<ChannelSpec cn="CN=Root,Vector=TaskList[Parameter Estimation],Problem=Parameter Estimation,ParameterGroup=Experiment Set,ParameterGroup=Experiment,Vector=Fitted Points[0],Reference=Independent Value"/>
<ChannelSpec cn="CN=Root,Vector=TaskList[Parameter Estimation],Problem=Parameter Estimation,ParameterGroup=Experiment Set,ParameterGroup=Experiment,Vector=Fitted Points[1],Reference=Measured Value"/>
</ListOfChannels>
</PlotItem>
<PlotItem name="T (model)" type="Curve2D">
<Parameter name="Line type" type="unsignedInteger" value="0"/>
<Parameter name="Line subtype" type="unsignedInteger" value="0"/>
<Parameter name="Line width" type="unsignedFloat" value="1"/>
<Parameter name="Symbol subtype" type="unsignedInteger" value="1"/>
<Parameter name="Color" type="string" value="#0000FF"/>
<Parameter name="Recording Activity" type="string" value="after"/>
<ListOfChannels>
<ChannelSpec cn="CN=Root,Vector=TaskList[Parameter Estimation],Problem=Parameter Estimation,ParameterGroup=Experiment Set,ParameterGroup=Experiment,Vector=Fitted Points[0],Reference=Independent Value"/>
<ChannelSpec cn="CN=Root,Vector=TaskList[Parameter Estimation],Problem=Parameter Estimation,ParameterGroup=Experiment Set,ParameterGroup=Experiment,Vector=Fitted Points[1],Reference=Fitted Value"/>
</ListOfChannels>
</PlotItem>
</ListOfPlotItems>
</PlotSpecification>
<PlotSpecification name="Fluxes" type="Plot2D" active="0" taskTypes="">
<Parameter name="log X" type="bool" value="0"/>
<Parameter name="log Y" type="bool" value="0"/>
<ListOfPlotItems>
<PlotItem name="contagion_A" type="Curve2D">
<Parameter name="Line type" type="unsignedInteger" value="0"/>
<Parameter name="Line subtype" type="unsignedInteger" value="0"/>
<Parameter name="Line width" type="unsignedFloat" value="1"/>
<Parameter name="Symbol subtype" type="unsignedInteger" value="1"/>
<Parameter name="Color" type="string" value="auto"/>
<Parameter name="Recording Activity" type="string" value="during"/>
<ListOfChannels>
<ChannelSpec cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Reference=Time"/>
<ChannelSpec cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_A],Reference=Flux"/>
</ListOfChannels>
</PlotItem>
<PlotItem name="contagion_D" type="Curve2D">
<Parameter name="Line type" type="unsignedInteger" value="0"/>
<Parameter name="Line subtype" type="unsignedInteger" value="0"/>
<Parameter name="Line width" type="unsignedFloat" value="1"/>
<Parameter name="Symbol subtype" type="unsignedInteger" value="0"/>
<Parameter name="Color" type="string" value="auto"/>
<Parameter name="Recording Activity" type="string" value="during"/>
<ListOfChannels>
<ChannelSpec cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Reference=Time"/>
<ChannelSpec cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_D],Reference=Flux"/>
</ListOfChannels>
</PlotItem>
<PlotItem name="contagion_I" type="Curve2D">
<Parameter name="Line type" type="unsignedInteger" value="0"/>
<Parameter name="Line subtype" type="unsignedInteger" value="0"/>
<Parameter name="Line width" type="unsignedFloat" value="1"/>
<Parameter name="Symbol subtype" type="unsignedInteger" value="0"/>
<Parameter name="Color" type="string" value="auto"/>
<Parameter name="Recording Activity" type="string" value="during"/>
<ListOfChannels>
<ChannelSpec cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Reference=Time"/>
<ChannelSpec cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_I],Reference=Flux"/>
</ListOfChannels>
</PlotItem>
<PlotItem name="contagion_R" type="Curve2D">
<Parameter name="Line type" type="unsignedInteger" value="0"/>
<Parameter name="Line subtype" type="unsignedInteger" value="0"/>
<Parameter name="Line width" type="unsignedFloat" value="1"/>
<Parameter name="Symbol subtype" type="unsignedInteger" value="0"/>
<Parameter name="Color" type="string" value="auto"/>
<Parameter name="Recording Activity" type="string" value="during"/>
<ListOfChannels>
<ChannelSpec cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Reference=Time"/>
<ChannelSpec cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[contagion_R],Reference=Flux"/>
</ListOfChannels>
</PlotItem>
<PlotItem name="critical_A" type="Curve2D">
<Parameter name="Line type" type="unsignedInteger" value="0"/>
<Parameter name="Line subtype" type="unsignedInteger" value="0"/>
<Parameter name="Line width" type="unsignedFloat" value="1"/>
<Parameter name="Symbol subtype" type="unsignedInteger" value="0"/>
<Parameter name="Color" type="string" value="auto"/>
<Parameter name="Recording Activity" type="string" value="during"/>
<ListOfChannels>
<ChannelSpec cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Reference=Time"/>
<ChannelSpec cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_A],Reference=Flux"/>
</ListOfChannels>
</PlotItem>
<PlotItem name="critical_R" type="Curve2D">
<Parameter name="Line type" type="unsignedInteger" value="0"/>
<Parameter name="Line subtype" type="unsignedInteger" value="0"/>
<Parameter name="Line width" type="unsignedFloat" value="1"/>
<Parameter name="Symbol subtype" type="unsignedInteger" value="0"/>
<Parameter name="Color" type="string" value="auto"/>
<Parameter name="Recording Activity" type="string" value="during"/>
<ListOfChannels>
<ChannelSpec cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Reference=Time"/>
<ChannelSpec cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[critical_R],Reference=Flux"/>
</ListOfChannels>
</PlotItem>
<PlotItem name="death" type="Curve2D">
<Parameter name="Line type" type="unsignedInteger" value="0"/>
<Parameter name="Line subtype" type="unsignedInteger" value="0"/>
<Parameter name="Line width" type="unsignedFloat" value="1"/>
<Parameter name="Symbol subtype" type="unsignedInteger" value="0"/>
<Parameter name="Color" type="string" value="auto"/>
<Parameter name="Recording Activity" type="string" value="during"/>
<ListOfChannels>
<ChannelSpec cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Reference=Time"/>
<ChannelSpec cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[death],Reference=Flux"/>
</ListOfChannels>
</PlotItem>
<PlotItem name="diagnosis_A" type="Curve2D">
<Parameter name="Line type" type="unsignedInteger" value="0"/>
<Parameter name="Line subtype" type="unsignedInteger" value="0"/>
<Parameter name="Line width" type="unsignedFloat" value="1"/>
<Parameter name="Symbol subtype" type="unsignedInteger" value="0"/>
<Parameter name="Color" type="string" value="auto"/>
<Parameter name="Recording Activity" type="string" value="during"/>
<ListOfChannels>
<ChannelSpec cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Reference=Time"/>
<ChannelSpec cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_A],Reference=Flux"/>
</ListOfChannels>
</PlotItem>
<PlotItem name="diagnosis_I" type="Curve2D">
<Parameter name="Line type" type="unsignedInteger" value="0"/>
<Parameter name="Line subtype" type="unsignedInteger" value="0"/>
<Parameter name="Line width" type="unsignedFloat" value="1"/>
<Parameter name="Symbol subtype" type="unsignedInteger" value="0"/>
<Parameter name="Color" type="string" value="auto"/>
<Parameter name="Recording Activity" type="string" value="during"/>
<ListOfChannels>
<ChannelSpec cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Reference=Time"/>
<ChannelSpec cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[diagnosis_I],Reference=Flux"/>
</ListOfChannels>
</PlotItem>
<PlotItem name="healing_A" type="Curve2D">
<Parameter name="Line type" type="unsignedInteger" value="0"/>
<Parameter name="Line subtype" type="unsignedInteger" value="0"/>
<Parameter name="Line width" type="unsignedFloat" value="1"/>
<Parameter name="Symbol subtype" type="unsignedInteger" value="0"/>
<Parameter name="Color" type="string" value="auto"/>
<Parameter name="Recording Activity" type="string" value="during"/>
<ListOfChannels>
<ChannelSpec cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Reference=Time"/>
<ChannelSpec cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_A],Reference=Flux"/>
</ListOfChannels>
</PlotItem>
<PlotItem name="healing_D" type="Curve2D">
<Parameter name="Line type" type="unsignedInteger" value="0"/>
<Parameter name="Line subtype" type="unsignedInteger" value="0"/>
<Parameter name="Line width" type="unsignedFloat" value="1"/>
<Parameter name="Symbol subtype" type="unsignedInteger" value="0"/>
<Parameter name="Color" type="string" value="auto"/>
<Parameter name="Recording Activity" type="string" value="during"/>
<ListOfChannels>
<ChannelSpec cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Reference=Time"/>
<ChannelSpec cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_D],Reference=Flux"/>
</ListOfChannels>
</PlotItem>
<PlotItem name="healing_I" type="Curve2D">
<Parameter name="Line type" type="unsignedInteger" value="0"/>
<Parameter name="Line subtype" type="unsignedInteger" value="0"/>
<Parameter name="Line width" type="unsignedFloat" value="1"/>
<Parameter name="Symbol subtype" type="unsignedInteger" value="0"/>
<Parameter name="Color" type="string" value="auto"/>
<Parameter name="Recording Activity" type="string" value="during"/>
<ListOfChannels>
<ChannelSpec cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Reference=Time"/>
<ChannelSpec cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_I],Reference=Flux"/>
</ListOfChannels>
</PlotItem>
<PlotItem name="healing_R" type="Curve2D">
<Parameter name="Line type" type="unsignedInteger" value="0"/>
<Parameter name="Line subtype" type="unsignedInteger" value="0"/>
<Parameter name="Line width" type="unsignedFloat" value="1"/>
<Parameter name="Symbol subtype" type="unsignedInteger" value="0"/>
<Parameter name="Color" type="string" value="auto"/>
<Parameter name="Recording Activity" type="string" value="during"/>
<ListOfChannels>
<ChannelSpec cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Reference=Time"/>
<ChannelSpec cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_R],Reference=Flux"/>
</ListOfChannels>
</PlotItem>
<PlotItem name="healing_T" type="Curve2D">
<Parameter name="Line type" type="unsignedInteger" value="0"/>
<Parameter name="Line subtype" type="unsignedInteger" value="0"/>
<Parameter name="Line width" type="unsignedFloat" value="1"/>
<Parameter name="Symbol subtype" type="unsignedInteger" value="0"/>
<Parameter name="Color" type="string" value="auto"/>
<Parameter name="Recording Activity" type="string" value="during"/>
<ListOfChannels>
<ChannelSpec cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Reference=Time"/>
<ChannelSpec cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[healing_T],Reference=Flux"/>
</ListOfChannels>
</PlotItem>
<PlotItem name="symptoms_D" type="Curve2D">
<Parameter name="Line type" type="unsignedInteger" value="0"/>
<Parameter name="Line subtype" type="unsignedInteger" value="0"/>
<Parameter name="Line width" type="unsignedFloat" value="1"/>
<Parameter name="Symbol subtype" type="unsignedInteger" value="0"/>
<Parameter name="Color" type="string" value="auto"/>
<Parameter name="Recording Activity" type="string" value="during"/>
<ListOfChannels>
<ChannelSpec cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Reference=Time"/>
<ChannelSpec cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_D],Reference=Flux"/>
</ListOfChannels>
</PlotItem>
<PlotItem name="symptoms_I" type="Curve2D">
<Parameter name="Line type" type="unsignedInteger" value="0"/>
<Parameter name="Line subtype" type="unsignedInteger" value="0"/>
<Parameter name="Line width" type="unsignedFloat" value="1"/>
<Parameter name="Symbol subtype" type="unsignedInteger" value="0"/>
<Parameter name="Color" type="string" value="auto"/>
<Parameter name="Recording Activity" type="string" value="during"/>
<ListOfChannels>
<ChannelSpec cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Reference=Time"/>
<ChannelSpec cn="CN=Root,Model=SIDARTHE Connecticut Model 9,Vector=Reactions[symptoms_I],Reference=Flux"/>
</ListOfChannels>
</PlotItem>
</ListOfPlotItems>
</PlotSpecification>
</ListOfPlots>
<GUI>
</GUI>
<SBMLReference file="SIDARTHE.xml">
<SBMLMap SBMLid="A" COPASIkey="Metabolite_3"/>
<SBMLMap SBMLid="CFR" COPASIkey="ModelValue_27"/>
<SBMLMap SBMLid="D" COPASIkey="Metabolite_2"/>
<SBMLMap SBMLid="DRT" COPASIkey="ModelValue_16"/>
<SBMLMap SBMLid="Diagn_cumul_infected" COPASIkey="ModelValue_20"/>
<SBMLMap SBMLid="E" COPASIkey="Metabolite_6"/>
<SBMLMap SBMLid="H" COPASIkey="Metabolite_7"/>
<SBMLMap SBMLid="I" COPASIkey="Metabolite_0"/>
<SBMLMap SBMLid="IDART" COPASIkey="ModelValue_18"/>
<SBMLMap SBMLid="IDARTHE" COPASIkey="ModelValue_17"/>
<SBMLMap SBMLid="Perceived_CFR" COPASIkey="ModelValue_26"/>
<SBMLMap SBMLid="R" COPASIkey="Metabolite_4"/>
<SBMLMap SBMLid="R0" COPASIkey="ModelValue_28"/>
<SBMLMap SBMLid="Recovered" COPASIkey="ModelValue_19"/>
<SBMLMap SBMLid="S" COPASIkey="Metabolite_1"/>
<SBMLMap SBMLid="T" COPASIkey="Metabolite_5"/>
<SBMLMap SBMLid="alpha" COPASIkey="ModelValue_0"/>
<SBMLMap SBMLid="beta" COPASIkey="ModelValue_1"/>
<SBMLMap SBMLid="compartment" COPASIkey="Compartment_0"/>
<SBMLMap SBMLid="contagion_A" COPASIkey="Reaction_2"/>
<SBMLMap SBMLid="contagion_D" COPASIkey="Reaction_1"/>
<SBMLMap SBMLid="contagion_I" COPASIkey="Reaction_0"/>
<SBMLMap SBMLid="contagion_R" COPASIkey="Reaction_3"/>
<SBMLMap SBMLid="critical_A" COPASIkey="Reaction_8"/>
<SBMLMap SBMLid="critical_R" COPASIkey="Reaction_9"/>
<SBMLMap SBMLid="death" COPASIkey="Reaction_10"/>
<SBMLMap SBMLid="delta" COPASIkey="ModelValue_3"/>
<SBMLMap SBMLid="diagnosis_A" COPASIkey="Reaction_7"/>
<SBMLMap SBMLid="diagnosis_I" COPASIkey="Reaction_4"/>
<SBMLMap SBMLid="epsilon" COPASIkey="ModelValue_4"/>
<SBMLMap SBMLid="eta" COPASIkey="ModelValue_6"/>
<SBMLMap SBMLid="gamma" COPASIkey="ModelValue_2"/>
<SBMLMap SBMLid="healing_A" COPASIkey="Reaction_13"/>
<SBMLMap SBMLid="healing_D" COPASIkey="Reaction_12"/>
<SBMLMap SBMLid="healing_I" COPASIkey="Reaction_11"/>
<SBMLMap SBMLid="healing_R" COPASIkey="Reaction_14"/>
<SBMLMap SBMLid="healing_T" COPASIkey="Reaction_15"/>
<SBMLMap SBMLid="kappa" COPASIkey="ModelValue_8"/>
<SBMLMap SBMLid="lambda" COPASIkey="ModelValue_9"/>
<SBMLMap SBMLid="mu" COPASIkey="ModelValue_10"/>
<SBMLMap SBMLid="nu" COPASIkey="ModelValue_11"/>
<SBMLMap SBMLid="r1" COPASIkey="ModelValue_21"/>
<SBMLMap SBMLid="r2" COPASIkey="ModelValue_22"/>
<SBMLMap SBMLid="r3" COPASIkey="ModelValue_23"/>
<SBMLMap SBMLid="r4" COPASIkey="ModelValue_24"/>
<SBMLMap SBMLid="r5" COPASIkey="ModelValue_25"/>
<SBMLMap SBMLid="rho" COPASIkey="ModelValue_13"/>
<SBMLMap SBMLid="sigma" COPASIkey="ModelValue_14"/>
<SBMLMap SBMLid="symptoms_D" COPASIkey="Reaction_6"/>
<SBMLMap SBMLid="symptoms_I" COPASIkey="Reaction_5"/>
<SBMLMap SBMLid="tau" COPASIkey="ModelValue_15"/>
<SBMLMap SBMLid="theta" COPASIkey="ModelValue_7"/>
<SBMLMap SBMLid="xi" COPASIkey="ModelValue_12"/>
<SBMLMap SBMLid="zeta" COPASIkey="ModelValue_5"/>
</SBMLReference>
<ListOfUnitDefinitions>
<UnitDefinition key="Unit_5" name="second" symbol="s">
<MiriamAnnotation>
<rdf:RDF
xmlns:dcterms="http://purl.org/dc/terms/"
xmlns:rdf="http://www.w3.org/1999/02/22-rdf-syntax-ns#">
<rdf:Description rdf:about="#Unit_4">
<dcterms:created>
<rdf:Description>
<dcterms:W3CDTF>2020-06-15T12:02:54Z</dcterms:W3CDTF>
</rdf:Description>
</dcterms:created>
</rdf:Description>
</rdf:RDF>
</MiriamAnnotation>
<Expression>
s
</Expression>
</UnitDefinition>
<UnitDefinition key="Unit_15" name="dimensionless" symbol="1">
<MiriamAnnotation>
<rdf:RDF
xmlns:dcterms="http://purl.org/dc/terms/"
xmlns:rdf="http://www.w3.org/1999/02/22-rdf-syntax-ns#">
<rdf:Description rdf:about="#Unit_14">
<dcterms:created>
<rdf:Description>
<dcterms:W3CDTF>2020-06-15T12:02:54Z</dcterms:W3CDTF>
</rdf:Description>
</dcterms:created>
</rdf:Description>
</rdf:RDF>
</MiriamAnnotation>
<Expression>
1
</Expression>
</UnitDefinition>
<UnitDefinition key="Unit_17" name="item" symbol="#">
<MiriamAnnotation>
<rdf:RDF
xmlns:dcterms="http://purl.org/dc/terms/"
xmlns:rdf="http://www.w3.org/1999/02/22-rdf-syntax-ns#">
<rdf:Description rdf:about="#Unit_16">
<dcterms:created>
<rdf:Description>
<dcterms:W3CDTF>2020-06-15T12:02:54Z</dcterms:W3CDTF>
</rdf:Description>
</dcterms:created>
</rdf:Description>
</rdf:RDF>
</MiriamAnnotation>
<Expression>
#
</Expression>
</UnitDefinition>
<UnitDefinition key="Unit_69" name="day" symbol="d">
<MiriamAnnotation>
<rdf:RDF
xmlns:dcterms="http://purl.org/dc/terms/"
xmlns:rdf="http://www.w3.org/1999/02/22-rdf-syntax-ns#">
<rdf:Description rdf:about="#Unit_68">
<dcterms:created>
<rdf:Description>
<dcterms:W3CDTF>2020-06-15T12:02:54Z</dcterms:W3CDTF>
</rdf:Description>
</dcterms:created>
</rdf:Description>
</rdf:RDF>
</MiriamAnnotation>
<Expression>
86400*s
</Expression>
</UnitDefinition>
</ListOfUnitDefinitions>
</COPASI>
| Component Pascal | 5 | pmendes/COVID19 | Models/SIDARTHE-CT_Model9.cps | [
"MIT"
] |
// run-pass
// Check that constant expressions can be used in vec repeat syntax.
// pretty-expanded FIXME #23616
pub fn main() {
const FOO: usize = 2;
let _v = [0; FOO*3*2/2];
}
| Rust | 4 | Eric-Arellano/rust | src/test/ui/consts/const-expr-in-vec-repeat.rs | [
"ECL-2.0",
"Apache-2.0",
"MIT-0",
"MIT"
] |
#include "caffe2/core/context_gpu.h"
#include "caffe2/operators/given_tensor_byte_string_to_uint8_fill_op.h"
namespace caffe2 {
REGISTER_CUDA_OPERATOR(
GivenTensorByteStringToUInt8Fill,
GivenTensorByteStringToUInt8FillOp<CUDAContext>);
}
| Cuda | 3 | Hacky-DH/pytorch | caffe2/operators/given_tensor_byte_string_to_uint8_fill_op.cu | [
"Intel"
] |
module Case
listId : List a -> List a
listId xs = case xs of
[] => []
(x :: xs) => x :: listId xs
listRev : List a -> List a
listRev = \case
[] => []
(x :: xs) => listRev xs ++ [x]
listFilter2 : (p, q : a -> Bool) -> List a -> List a
listFilter2 p q xs
= do x <- xs
-- let pat
let True = p x
| False => []
-- do pat
True <- pure (q x)
| False => []
pure x
| Idris | 4 | ska80/idris-jvm | tests/ideMode/ideMode005/Case.idr | [
"BSD-3-Clause"
] |
The AMEE category business/processes/production/ferroalloy/rawmaterials is aimed towards industry professionals to enable them to prepare inventories of greenhouse gas emissions from ferroalloy production. Ferroalloy is the term used to describe concentrated alloys of iron and one or more metals such as silicon, manganese, chromium, molybdenum, vanadium and tungsten. Silicon metal production is usually included in the ferroalloy group because silicon metal production process is quite similar to the ferrosilicon process. Ferroalloy production involves a metallurgical reduction process that results in significant carbon dioxide emissions.
The methodology provided by AMEE in this category represents the //Tier 2// and //Tier 3// approach described by the IPCC Guidelines for National Greenhouse Gas Inventories ([[http://www.ipcc-nggip.iges.or.jp/public/2006gl/vol3.html|NGGIP]]) and calculates on the basis of raw material inputs to the ferroalloy production process.
==How to use this category==
To use this category use the //typeOfReducingAgent// drill-down to select the reducing agent type being used from the following options:
# //coal (for FeSi and Si-metal)//
# //coal (for other ferroalloys)//
# //coke (for FeMn and SiMn)//
# //coke (for Si and FeSi)//
# //coke (for other ferroalloys)//
# //prebaked electrodes//
# //electrode paste//
# //petroleum coke//
The following profile item values are required in order to accurately calculate CO,,2,, emissions:
# //**reducingAgentQuantity**//
# //**oreQuantity**//
# //**oreCarbonContent**//
# //**slagQuantity**//
# //**slagCarbonContent**//
# //**productQuantity**//
# //**productCarbonContent**//
# //**nonProductOutgoingStreamQuantity**//
# //**nonProductOutgoingStreamCarbonContent**//
The CO,,2,, emission factor for the reducing agent has a default value provided by the AMEE engine, but this can be over-ridden, using the //**massCO2PerMassReducingAgent**// profile item value, by the user if more precise site or country-specific values are known.
For Tier 3 calculations the following profile item values can also be specified.
Use either:
# //**reducingAgentCarbonContent**// (decimal fraction, 0-1)
Or:
# //**percentageAsh**//: within reducing agent (decimal fraction, 0-1)
# //**percentageVolatiles**//: within reducing agent (decimal fraction, 0-1)
# //**carbonContentInVolatiles**//: within reducing agent (decimal fraction, 0-1)
AMEE converts the carbon content of each source and product into CO,,2,, emissions using molecular mass ratios, seen in [[Stoichiometries_ratios]]. This assumes complete combustion of carbon into CO,,2,,. | Creole | 2 | OpenAMEE/datasets | business/processes/production/ferroalloy/rawmaterials/documentation.creole | [
"MIT"
] |
/* Copyright (c) 2017-2019 Netronome Systems, Inc. All rights reserved.
*
* SPDX-License-Identifier: BSD-2-Clause
*/
/* Test for macro pv_init_nfd. Not testing lso_fixup */
;TEST_INIT_EXEC nfp-mem i32.ctm:0x000 0x43020344 0x05060708 0x01320b0c 0x02030401
;TEST_INIT_EXEC nfp-mem i32.ctm:0x010 0x43020344 0x05060708 0x01320b0c 0x02030401
;TEST_INIT_EXEC nfp-mem i32.ctm:0x020 0x23020304 0x85060708 0x090a0b0c 0x02000402
;TEST_INIT_EXEC nfp-mem i32.ctm:0x030 0x33020304 0x05060708 0x090a0b0c 0x020e0402
;TEST_INIT_EXEC nfp-mem i32.ctm:0x040 0x03faaa37 0x0401abc0 0x00000b0c 0x01110222
#define NULL_VLAN 0xfff
#include <single_ctx_test.uc>
#include <global.uc>
#include <pv.uc>
#include <stdmac.uc>
#define NUM_TEST_ITERATIONS 5
#define NFD_IN_META_SIZE_LW 4
.sig s
.reg i
.reg tmp1, tmp2
.reg daddr
.reg args
.reg value
.reg pkt_no
.reg drop_flag
.reg exp[8]
.reg volatile read $nfd_desc[NFD_IN_META_SIZE_LW]
.xfer_order $nfd_desc
.reg volatile read $__actions[NIC_MAX_INSTR]
.addr $__actions[0] 32
.xfer_order $__actions
.reg volatile __actions_t_idx
#define pkt_vec *l$index1
.reg pkt_vec_addr
.reg_addr __actions_t_idx 28 B
alu[__actions_t_idx, --, B, 0]
alu[pkt_vec_addr, (PV_META_BASE_wrd * 4), OR, t_idx_ctx, >>(8 - log2((PV_SIZE_LW * 4 * PV_MAX_CLONES), 1))]
move(args, (6000 << 2))
move(daddr, 0x00)
move(i,0)
pv_reset(pkt_vec_addr, 0, __actions_t_idx, 64)
.while (i < NUM_TEST_ITERATIONS)
move(pkt_no, i)
// read in nfd descriptor for this iteration
mem[read32, $nfd_desc[0], 0, <<8, daddr, NFD_IN_META_SIZE_LW], ctx_swap[s]
// set up expected data
// drop flag
alu[drop_flag, --, B, $nfd_desc[1], >>31]
// lword 0
ld_field_w_clr[exp[0], 1100, pkt_no, <<16] // pkt num
alu[exp[0], exp[0], OR, 32,<<BF_L(PV_CTM_ISL_bf)]
ld_field_w_clr[tmp1, 0011, $nfd_desc[3], >>16] // pkt len
ld_field_w_clr[tmp2, 0001, $nfd_desc[0], >>24]
alu[tmp2, tmp2, AND, 0x7f]
alu[exp[0], exp[0], +, tmp1]
alu[exp[0], exp[0], -, tmp2]
alu[exp[0], exp[0], OR, NFD_IN_BLM_REG_BLS, <<14] // bls
// lword 1
move(tmp1, 0x1fffffff) // mu addr
alu[exp[1], $nfd_desc[1], AND, tmp1]
ld_field_w_clr[tmp2, 0011, $nfd_desc[3], >>16] // split
alu[tmp1, NFD_IN_DATA_OFFSET, +, tmp2]
.if (tmp1 > 256)
alu[exp[1], exp[1], OR, 1, <<31]
.endif
// lword 2
ld_field_w_clr[exp[2], 1100, pkt_no, <<16] // pkt num
ld_field[exp[2], 0011, NFD_IN_DATA_OFFSET] // offset
// lword 3
move(tmp1, ~(0x100 - NFD_IN_NUM_SEQRS)) // seq num & seq ctx
alu[exp[3], $nfd_desc[0], AND, tmp1]
#ifdef PV_MULTI_PCI
alu[tmp1, 3, AND, $nfd_desc[0], >>6] // seq ctx
alu[exp[3], --, B, tmp1, <<log2(NFD_IN_NUM_SEQRS)]
#endif
alu[exp[3], exp[3], +, PV_GRO_NFD_START]
alu[exp[3], --, B, exp[3], <<8]
alu[tmp1, --, B, 0xff]
ld_field[exp[3], 0001, tmp1]
.if (! drop_flag)
alu[tmp1, --, B, 0xff]
ld_field[exp[3], 0001, tmp1]
.endif
// lword 4
move(exp[4], 0) // seek
alu[tmp1, 3, AND, $nfd_desc[2], >>29] // tcp csum
alu[exp[4], exp[4], OR, tmp1]
alu[tmp1, 1, AND, $nfd_desc[2], >>28] // udp csum
alu[exp[4], exp[4], OR, tmp1]
// lword 5
.if (drop_flag)
move(exp[5],0x00000000) // stacked offsets - to be added
move(exp[6], 0)
.else // also not cleared from prior iteration
move(exp[5],0x00000000) // stacked offsets - to be added
move(exp[6], 0x000fff00)
.endif
// lword 6
// lword 7
move(exp[7], 0)
move(pkt_vec[6], 0)
pv_init_nfd(pkt_vec, pkt_no, $nfd_desc, args, error#)
.if ( drop_flag )
test_assert_equal(i, 0xfe)
test_fail()
.endif
alu[exp[2], exp[2], OR, 1, <<31] // ctm allocated
br[pv_data_check#]
error#:
alu[exp[2], exp[2], AND~, 1, <<31]
.if (!drop_flag )
test_assert_equal(i, 0xff)
test_fail()
.endif
pv_data_check#:
#define_eval _PV_TEST_LOOP 0
#while (_PV_TEST_LOOP <= 7)
move(value, pkt_vec[_PV_TEST_LOOP])
#define_eval _PV_TEST_EXPECT 'exp[/**/_PV_TEST_LOOP/**/]'
#pragma warning(disable:4701)
test_assert_equal(value, _PV_TEST_EXPECT)
#pragma warning(default:4701)
#define_eval _PV_TEST_LOOP (_PV_TEST_LOOP + 1)
#endloop
alu[i, i, +, 1]
alu[daddr, daddr, +, 0x10]
.endw
test_pass()
PV_HDR_PARSE_SUBROUTINE#:
pv_hdr_parse_subroutine(pkt_vec)
PV_SEEK_SUBROUTINE#:
pv_seek_subroutine(pkt_vec)
| UnrealScript | 3 | pcasconnetronome/nic-firmware | test/datapath/pv_init_nfd_test.uc | [
"BSD-2-Clause"
] |
#include <torch/csrc/jit/passes/inplace_check.h>
namespace torch {
namespace jit {
void CheckInplace(Block* block) {
for (auto node : block->nodes()) {
if (node->kind() == prim::PythonOp && node->hasAttribute(attr::inplace)) {
if (node->i(attr::inplace)) {
throw std::runtime_error(
std::string("inplace ") + static_cast<PythonOp*>(node)->name() +
" not supported in the JIT");
}
}
}
}
void CheckInplace(std::shared_ptr<Graph>& graph) {
CheckInplace(graph->block());
}
} // namespace jit
} // namespace torch
| C++ | 4 | Hacky-DH/pytorch | torch/csrc/jit/passes/inplace_check.cpp | [
"Intel"
] |
#region license
// Copyright (c) 2004, Rodrigo B. de Oliveira (rbo@acm.org)
// All rights reserved.
//
// Redistribution and use in source and binary forms, with or without modification,
// are permitted provided that the following conditions are met:
//
// * Redistributions of source code must retain the above copyright notice,
// this list of conditions and the following disclaimer.
// * Redistributions in binary form must reproduce the above copyright notice,
// this list of conditions and the following disclaimer in the documentation
// and/or other materials provided with the distribution.
// * Neither the name of Rodrigo B. de Oliveira nor the names of its
// contributors may be used to endorse or promote products derived from this
// software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
// ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
// WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
// DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE
// FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
// DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
// SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
// CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
// OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
// THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
#endregion
namespace Boo.Lang.Compiler.Tests
import System
import Boo.Lang.Compiler
import Boo.Lang.Compiler.Ast
import Boo.Lang.Compiler.Util
import Boo.Lang.Compiler.TypeSystem
import Boo.Lang.Compiler.TypeSystem.Builders
import NUnit.Framework
import Boo.Lang.Environments
[TestFixture]
class TypeSystemFixture:
_context as CompilerContext
_tss as TypeSystemServices
def IntAsBool(i as int) as bool:
pass
def IntAsBool2(i as int) as bool:
pass
[TestFixtureSetUp]
def SetUpFixture():
_context = CompilerContext()
_context.Environment.Run:
_tss = my(TypeSystemServices)
def GetMethod(name as string) as IMethod:
return _tss.Map(GetType().GetMethod(name))
def GetCallableType(methodName as string) as ICallableType:
return _tss.GetCallableType(GetMethod(methodName))
test TypeFieldsMustBeMutable:
"""
The fields listed below need to be public and
mutable for now because a different backend (say boojay)
might need different values for some of these.
"""
AssertTypeSystemFieldIsMutable "DuckType"
AssertTypeSystemFieldIsMutable "IQuackFuType"
AssertTypeSystemFieldIsMutable "MulticastDelegateType"
AssertTypeSystemFieldIsMutable "DelegateType"
AssertTypeSystemFieldIsMutable "IntPtrType"
AssertTypeSystemFieldIsMutable "UIntPtrType"
AssertTypeSystemFieldIsMutable "ObjectType"
AssertTypeSystemFieldIsMutable "ValueTypeType"
AssertTypeSystemFieldIsMutable "EnumType"
AssertTypeSystemFieldIsMutable "RegexType"
AssertTypeSystemFieldIsMutable "ArrayType"
AssertTypeSystemFieldIsMutable "TypeType"
AssertTypeSystemFieldIsMutable "ObjectArrayType"
AssertTypeSystemFieldIsMutable "VoidType"
AssertTypeSystemFieldIsMutable "StringType"
AssertTypeSystemFieldIsMutable "BoolType"
AssertTypeSystemFieldIsMutable "CharType"
AssertTypeSystemFieldIsMutable "SByteType"
AssertTypeSystemFieldIsMutable "ByteType"
AssertTypeSystemFieldIsMutable "ShortType"
AssertTypeSystemFieldIsMutable "UShortType"
AssertTypeSystemFieldIsMutable "IntType"
AssertTypeSystemFieldIsMutable "UIntType"
AssertTypeSystemFieldIsMutable "LongType"
AssertTypeSystemFieldIsMutable "ULongType"
AssertTypeSystemFieldIsMutable "SingleType"
AssertTypeSystemFieldIsMutable "DoubleType"
AssertTypeSystemFieldIsMutable "DecimalType"
AssertTypeSystemFieldIsMutable "TimeSpanType"
AssertTypeSystemFieldIsMutable "DateTimeType"
AssertTypeSystemFieldIsMutable "RuntimeServicesType"
AssertTypeSystemFieldIsMutable "BuiltinsType"
AssertTypeSystemFieldIsMutable "ListType"
AssertTypeSystemFieldIsMutable "HashType"
AssertTypeSystemFieldIsMutable "ICallableType"
AssertTypeSystemFieldIsMutable "IEnumerableType"
AssertTypeSystemFieldIsMutable "IEnumeratorType"
AssertTypeSystemFieldIsMutable "IEnumerableGenericType"
AssertTypeSystemFieldIsMutable "IEnumeratorGenericType"
AssertTypeSystemFieldIsMutable "ICollectionType"
AssertTypeSystemFieldIsMutable "SystemAttribute"
AssertTypeSystemFieldIsMutable "ConditionalAttribute"
def AssertTypeSystemFieldIsMutable(fieldName as string):
assert not _tss.GetType().GetField(fieldName).IsInitOnly, "Field ${fieldName} must be mutable!"
test TestMostGenericType:
Assert.AreSame(_tss.LongType,
_tss.GetMostGenericType(_tss.IntType, _tss.LongType),
"long > int")
Assert.AreSame(_tss.IntType,
_tss.GetMostGenericType(_tss.ShortType, _tss.IntType),
"int > short")
Assert.AreSame(_tss.DoubleType,
_tss.GetMostGenericType(_tss.DoubleType, _tss.IntType),
"double > int")
Assert.AreSame(_tss.BoolType,
_tss.GetMostGenericType(_tss.BoolType, _tss.BoolType),
"bool == bool")
Assert.AreSame(_tss.IntType,
_tss.GetMostGenericType(_tss.BoolType, _tss.IntType),
"int > bool")
test ExternalMethodType:
method = GetMethod("IntAsBool")
Assert.IsNotNull(method)
Assert.AreEqual("IntAsBool", method.Name)
Assert.AreSame(_tss.BoolType, method.ReturnType, "ReturnType")
parameters = method.GetParameters()
Assert.AreEqual(1, len(parameters))
Assert.AreSame(_tss.IntType, parameters[0].Type)
Assert.AreEqual("i", parameters[0].Name)
type = method.Type
Assert.IsNotNull(type, "method.Type")
Assert.AreSame(type, method.CallableType, "method.CallableType")
test GetCallableTypeReturnsTheSameObjectForCompatibleMethods:
type1 = GetCallableType("IntAsBool")
type2 = GetCallableType("IntAsBool2")
Assert.AreSame(type1, type2)
Assert.AreSame(GetMethod("IntAsBool").CallableType,
GetMethod("IntAsBool2").CallableType)
test MapReturnsTheSameObjectForTheSameMember:
Assert.AreSame(GetMethod("IntAsBool"),
GetMethod("IntAsBool"))
Assert.AreSame(GetMethod("IntAsBool2"), GetMethod("IntAsBool2"))
test ResolveFromExternalTypesDontAddDuplicatedMethods:
type1 = _tss.ICallableType
type2 = _tss.MulticastDelegateType
methods = Set of IEntity()
type1.Resolve(methods, "GetType", EntityType.Method)
type2.Resolve(methods, "GetType", EntityType.Method)
Assert.AreEqual(1, len(methods))
found, = methods
Assert.AreSame(_tss.Map(typeof(object).GetMethod("GetType")), found)
test ExternalInterfaceDepth:
Assert.AreEqual(1, _tss.ICallableType.GetTypeDepth())
test ExternalTypeDepth:
Assert.AreEqual(0, _tss.ObjectType.GetTypeDepth())
Assert.AreEqual(2, _tss.MulticastDelegateType.GetTypeDepth())
test CallableTypeDepth:
type = _tss.GetCallableType(GetMethod("IntAsBool"))
Assert.AreEqual(3, type.GetTypeDepth())
test CreateCallableDefinition:
cd = my(CallableTypeBuilder).ForCallableDefinition(CallableDefinition(Name: "Function"))
Assert.AreEqual(3, cast(IType, cd.Entity).GetTypeDepth())
def Function() as void:
pass
def BoolFunction() as bool:
pass
def SingleArg(item as object) as object:
pass
test IsCallableTypeAssignableFrom:
c1 = GetCallableType("IntAsBool")
c2 = GetCallableType("IntAsBool2")
AssertCallableAssignableFrom(c1, c2)
AssertCallableAssignableFrom(c2, c1)
c3 = GetCallableType("Function")
AssertCallableAssignableFrom(c1, c3)
AssertCallableNotAssignableFrom(c3, c1)
AssertCallableAssignableFrom(c2, c3)
AssertCallableNotAssignableFrom(c3, c2)
c4 = GetCallableType("SingleArg")
AssertCallableAssignableFrom(c1, c4)
AssertCallableAssignableFrom(c4, c1)
AssertCallableAssignableFrom(c2, c4)
AssertCallableAssignableFrom(c4, c2)
AssertCallableAssignableFrom(c4, c3)
AssertCallableNotAssignableFrom(c3, c4)
c5 = GetCallableType("BoolFunction")
AssertCallableAssignableFrom(c1, c5)
AssertCallableAssignableFrom(c2, c5)
AssertCallableAssignableFrom(c3, c5)
AssertCallableAssignableFrom(c5, c3)
def AssertCallableAssignableFrom(lvalue, rvalue):
Assert.IsTrue(_tss.IsCallableTypeAssignableFrom(lvalue, rvalue),
"${lvalue} should be assignable from ${rvalue}")
def AssertCallableNotAssignableFrom(lvalue, rvalue):
Assert.IsFalse(_tss.IsCallableTypeAssignableFrom(lvalue, rvalue),
"${lvalue} should NOT be assignable from ${rvalue}")
| Boo | 4 | popcatalin81/boo | tests/Boo.Lang.Compiler.Tests/TypeSystemFixture.boo | [
"BSD-3-Clause"
] |
"""Test the Z-Wave JS config validation helpers."""
import pytest
import voluptuous as vol
from homeassistant.components.zwave_js.config_validation import boolean
def test_boolean_validation():
"""Test boolean config validator."""
# test bool
assert boolean(True)
assert not boolean(False)
# test strings
assert boolean("TRUE")
assert not boolean("FALSE")
assert boolean("ON")
assert not boolean("NO")
# ensure 1's and 0's don't get converted to bool
with pytest.raises(vol.Invalid):
boolean("1")
with pytest.raises(vol.Invalid):
boolean("0")
with pytest.raises(vol.Invalid):
boolean(1)
with pytest.raises(vol.Invalid):
boolean(0)
| Python | 4 | MrDelik/core | tests/components/zwave_js/test_config_validation.py | [
"Apache-2.0"
] |
# Copyright 1999-2004 Gentoo Foundation
# Distributed under the terms of the GNU General Public License v2
# $Header: /var/cvsroot/gentoo-x86/eclass/kde-meta.eclass,v 1.82 2007/03/18 21:39:30 carlo Exp $
#
# Author Anant Narayanan <anant@gentoo.org>
#
# This is the plan9-cmds eclass which supports broken-up Plan9 applications.
inherit plan9-libs
function plan9-cmds_src_compile() {
plan9-libs_src_compile
}
function plan9-cmds_src_install() {
set_path
mk install || die "Install Failed!"
dobin ${S}/bin/${PN}
doman ${S}/man/man1/${PN}.1
}
EXPORT_FUNCTIONS src_compile src_install
| Gentoo Eclass | 4 | longlene/clx | eclass/plan9-cmds.eclass | [
"MIT"
] |
handle-iorder:
cmd:
- cwd: /tmp/ruby-1.9.2-p320
- names:
- ./configure
- make
- make install
- run
| SaltStack | 2 | byteskeptical/salt | tests/integration/files/file/base/issue-7649-handle-iorder.sls | [
"Apache-2.0"
] |
sleep 5
t app appmode video
sleep 3
t app button shutter PR
sleep 20
t app button shutter PR
sleep 3
t app appmode photo
sleep 2
t app button shutter PR
| AGS Script | 1 | waltersgrey/autoexechack | 20SecVideoAndPhoto/Hero3PlusBlack/autoexec.ash | [
"MIT"
] |
component{
function safetext(text) {
var obracket = find("<",theText);
var badTag = "";
var nextStart = "";
while(obracket){
badTag = REFindNoCase();
if(badTag.pos[1]){
nextStart = badTag.pos[1] + badTag.len[1];
}
else{
nextStart = obracket + 1;
}
}
}
}
} | ColdFusion CFC | 2 | tonym128/CFLint | src/test/resources/com/cflint/tests/UnusedVariable/while_465.cfc | [
"BSD-3-Clause"
] |
/* Do not edit this file - Generated by Perlito5 9.0 */
#include "EXTERN.h"
#include "perl.h"
#include "XSUB.h"
MODULE = Warn PACKAGE = Warn
void test ()
PPCODE:
warn( SvPVx_nolen( newSVpv("MOO", 0)) );
| XS | 2 | lablua/Perlito | misc/t5-xs/Warn/Warn.xs | [
"Artistic-2.0"
] |
$accentColor = #40A4E3
| Stylus | 0 | Shermayster/xstate | docs/.vuepress/styles/palette.styl | [
"MIT"
] |
.INITVAL_00($sformatf("0x%080x", permute_init(INIT[0 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_01($sformatf("0x%080x", permute_init(INIT[1 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_02($sformatf("0x%080x", permute_init(INIT[2 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_03($sformatf("0x%080x", permute_init(INIT[3 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_04($sformatf("0x%080x", permute_init(INIT[4 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_05($sformatf("0x%080x", permute_init(INIT[5 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_06($sformatf("0x%080x", permute_init(INIT[6 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_07($sformatf("0x%080x", permute_init(INIT[7 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_08($sformatf("0x%080x", permute_init(INIT[8 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_09($sformatf("0x%080x", permute_init(INIT[9 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_0A($sformatf("0x%080x", permute_init(INIT[10 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_0B($sformatf("0x%080x", permute_init(INIT[11 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_0C($sformatf("0x%080x", permute_init(INIT[12 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_0D($sformatf("0x%080x", permute_init(INIT[13 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_0E($sformatf("0x%080x", permute_init(INIT[14 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_0F($sformatf("0x%080x", permute_init(INIT[15 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_10($sformatf("0x%080x", permute_init(INIT[16 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_11($sformatf("0x%080x", permute_init(INIT[17 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_12($sformatf("0x%080x", permute_init(INIT[18 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_13($sformatf("0x%080x", permute_init(INIT[19 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_14($sformatf("0x%080x", permute_init(INIT[20 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_15($sformatf("0x%080x", permute_init(INIT[21 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_16($sformatf("0x%080x", permute_init(INIT[22 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_17($sformatf("0x%080x", permute_init(INIT[23 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_18($sformatf("0x%080x", permute_init(INIT[24 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_19($sformatf("0x%080x", permute_init(INIT[25 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_1A($sformatf("0x%080x", permute_init(INIT[26 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_1B($sformatf("0x%080x", permute_init(INIT[27 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_1C($sformatf("0x%080x", permute_init(INIT[28 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_1D($sformatf("0x%080x", permute_init(INIT[29 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_1E($sformatf("0x%080x", permute_init(INIT[30 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_1F($sformatf("0x%080x", permute_init(INIT[31 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_20($sformatf("0x%080x", permute_init(INIT[32 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_21($sformatf("0x%080x", permute_init(INIT[33 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_22($sformatf("0x%080x", permute_init(INIT[34 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_23($sformatf("0x%080x", permute_init(INIT[35 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_24($sformatf("0x%080x", permute_init(INIT[36 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_25($sformatf("0x%080x", permute_init(INIT[37 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_26($sformatf("0x%080x", permute_init(INIT[38 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_27($sformatf("0x%080x", permute_init(INIT[39 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_28($sformatf("0x%080x", permute_init(INIT[40 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_29($sformatf("0x%080x", permute_init(INIT[41 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_2A($sformatf("0x%080x", permute_init(INIT[42 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_2B($sformatf("0x%080x", permute_init(INIT[43 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_2C($sformatf("0x%080x", permute_init(INIT[44 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_2D($sformatf("0x%080x", permute_init(INIT[45 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_2E($sformatf("0x%080x", permute_init(INIT[46 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_2F($sformatf("0x%080x", permute_init(INIT[47 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_30($sformatf("0x%080x", permute_init(INIT[48 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_31($sformatf("0x%080x", permute_init(INIT[49 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_32($sformatf("0x%080x", permute_init(INIT[50 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_33($sformatf("0x%080x", permute_init(INIT[51 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_34($sformatf("0x%080x", permute_init(INIT[52 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_35($sformatf("0x%080x", permute_init(INIT[53 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_36($sformatf("0x%080x", permute_init(INIT[54 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_37($sformatf("0x%080x", permute_init(INIT[55 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_38($sformatf("0x%080x", permute_init(INIT[56 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_39($sformatf("0x%080x", permute_init(INIT[57 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_3A($sformatf("0x%080x", permute_init(INIT[58 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_3B($sformatf("0x%080x", permute_init(INIT[59 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_3C($sformatf("0x%080x", permute_init(INIT[60 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_3D($sformatf("0x%080x", permute_init(INIT[61 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_3E($sformatf("0x%080x", permute_init(INIT[62 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE]))),
.INITVAL_3F($sformatf("0x%080x", permute_init(INIT[63 * INIT_CHUNK_SIZE +: INIT_CHUNK_SIZE])))
| SystemVerilog | 3 | gudeh/yosys | techlibs/nexus/brams_init.vh | [
"ISC"
] |
// This title is very easy to optimise and includes an ESC character
>>>>>>[-]<[-]<[-]<[-]<[-]<[-]<[-]++++++++++++++++[>+++>++++>+++++++>++++
++>++>+<<<<<<-]>>>>>...<<<<.+.+.+.+.+.+.+.+.+.>+.+.+.+.+.+.<---------.+.
+.+.+.+.+.+.+.+.>-----.+.+.+.+.+.<---------.+.+.+.+.+.+.+.+.+.>-----.+.+
.+.+.+.<---------.+.+.+.+.+.+.+.+.+.>-----.+.+.+.+.+.>>>>------.<-----.<
-----.<<<--------.>>---.<---.>++++++++.---..>++++++++++.<----.++++++.>>+
++++.<--.+++++.-------.<--.>.++.<++.>++.<--.>>.<<+.>.<+.>>-----.<-------
---.<-------.>>>.[-]<[-]<[-]<[-]<[-]<[-]<
// This first should be very easy to optimise so with luck we get
// a literal string with all the characters in the generated code
>>>>[-]<[-]<[-]<[-]<[-]++++++++++++++++[>+++>++++++++>++>++<<<<-]>.+++++
+++++.>----.>.................................+.+.+.+.+.+.+.+.+.+.+.+.+.
+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.<.<<++++++++++.>---------.>>-----.<.
>++++++.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.
+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.>.<<.<<.>>>>
[-]<[-]<[-]<[-]<[-]
// Try to break any optimiser
+[>]<-
// This is the same again but it is rather more difficult to optimise
++++[>++++<-]>[>++>[++++++++>]++[<]>-]>>>>>>>>>>>--.<.[<]>>++.<.........
........................+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.
+.+.+.+.+.+.+.>.[>]<<.<<<<<+.<.[<]>>.<+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.
+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.
+.+.+.+.+.+.+.+.+.+.[>]<<<<<--.[<]>>.<<++++++++++..[>]<[[-]<]
// Next the high bytes above 128
+++[>++++++<-]>[>[++++++++>]++[<]>-]>>>>>>>>>>>>.<.[<]>>>++.[>]<<<<<--..
..............................[<]>++++++++++++++++++++++.+.+.+.+.+.+.+.+
.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.>>.[>]<<.<<<<<+.<.[<]>>>.
<<+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.
+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.>>.<<<++++++++
++..[>]<[[-]<]
// Last the bytes as negative values
>+++++[<+++++>-]<[>+>-->->--->+++++>++<<<<<<-]>>>>>>.++++++++.<-.<<<<+++
++++................................>>>---------------------.+.+.+.+.+.+
.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.>.>>++++++++++.<-----
--.+++++++.<.<+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.
+.+.+.+.+.+.+.+.+.+.<.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.+.>>
.>>.[-]<[-]<[-]<[+]<[+]<[+]<[-]< | Brainfuck | 2 | RubenNL/brainheck | examples/bench/prttab.bf | [
"Apache-2.0"
] |
import { createNext, FileRef } from 'e2e-utils'
import { NextInstance } from 'test/lib/next-modes/base'
import webdriver from 'next-webdriver'
import path from 'path'
const appDir = path.join(__dirname, 'stitches')
describe('New Link Behavior with stitches', () => {
let next: NextInstance
beforeAll(async () => {
next = await createNext({
files: {
pages: new FileRef(path.join(appDir, 'pages')),
components: new FileRef(path.join(appDir, 'components')),
'next.config.js': new FileRef(path.join(appDir, 'next.config.js')),
'stitches.config.js': new FileRef(
path.join(appDir, 'stitches.config.js')
),
},
dependencies: {
'@stitches/react': '^1.2.6',
next: 'latest',
react: 'latest',
'react-dom': 'latest',
},
})
})
afterAll(() => next.destroy())
it('should render <a>', async () => {
const browser = await webdriver(next.url, `/`)
const element = await browser.elementByCss('a[href="/about"]')
const color = await element.getComputedCss('color')
expect(color).toBe('rgb(78, 39, 231)')
const text = await element.text()
expect(text).toBe('Visit About')
})
})
| TypeScript | 4 | hanneslund/next.js | test/e2e/new-link-behavior/stitches.test.ts | [
"MIT"
] |
:not(".public/basics/positioning") {
}
| CSS | 0 | fuelingtheweb/prettier | tests/css_selector_string/string.css | [
"MIT"
] |
@checkbox-prefix-cls: ~"@{css-prefix}checkbox";
.checkboxFn(); | Less | 0 | wangjianhua1/frsp-web | src/assets/theme/my-theme/components/checkbox.less | [
"MIT"
] |
{
key.results: [
{
key.typename: "MyBinding<TextFieldInner>",
key.typeusr: "$s20typecontext_generics9MyBindingVyqd__GD",
key.implicitmembers: [
]
}
]
}
| Groff | 1 | gandhi56/swift | test/SourceKit/TypeContextInfo/typecontext_generics.swift.response.7 | [
"Apache-2.0"
] |
// Copyright 2019 The TensorFlow Authors. All Rights Reserved.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
syntax = "proto2";
package toco;
// TocoConversionLog contains the analytics to be gathered when user converts
// a model to TF Lite using TOCO.
// Next ID to USE: 14.
message TocoConversionLog {
// Total ops listed by name.
repeated string op_list = 1;
// Counts of built-in ops.
// Key is op name and value is the count.
map<string, int32> built_in_ops = 2;
// Counts of custom ops.
map<string, int32> custom_ops = 3;
// Counts of select ops.
map<string, int32> select_ops = 4;
// The signature of operators. Including ops input/output types and shapes,
// op name and version.
repeated string op_signatures = 5;
// Input tensor types.
repeated string input_tensor_types = 6;
// Output tensor types.
repeated string output_tensor_types = 7;
// Log generation time in micro-seconds.
optional int64 log_generation_ts = 8;
// Total number of ops in the model.
optional int32 model_size = 9;
// Tensorflow Lite runtime version.
optional string tf_lite_version = 10;
// Operating System info.
optional string os_version = 11;
// Model hash string.
optional string model_hash = 12;
// Error messages emitted by TOCO during conversion.
optional string toco_err_logs = 13;
}
| Protocol Buffer | 4 | yage99/tensorflow | tensorflow/lite/toco/logging/toco_conversion_log.proto | [
"Apache-2.0"
] |
#tag Module
Protected Module EditFieldExtensionsWFS
#tag Method, Flags = &h21
Private Sub ChangeWindowStyle(w as Integer, flag as Integer, set as Boolean, ex as Boolean = false)
#if TargetWin32
Dim oldFlags as Integer
Dim newFlags as Integer
Dim styleFlags As Integer
Const SWP_NOSIZE = &H1
Const SWP_NOMOVE = &H2
Const SWP_NOZORDER = &H4
Const SWP_FRAMECHANGED = &H20
Const GWL_STYLE = -16
Const GWL_EXSTYLE = -20
Declare Function GetWindowLong Lib "user32" Alias "GetWindowLongA" (hwnd As Integer, _
nIndex As Integer) As Integer
Declare Function SetWindowLong Lib "user32" Alias "SetWindowLongA" (hwnd As Integer, _
nIndex As Integer, dwNewLong As Integer) As Integer
Declare Function SetWindowPos Lib "user32" (hwnd as Integer, hWndInstertAfter as Integer, _
x as Integer, y as Integer, cx as Integer, cy as Integer, flags as Integer) as Integer
dim style as Integer = GWL_STYLE
if ex then style = GWL_EXSTYLE
oldFlags = GetWindowLong( w, style )
if not set then
newFlags = BitwiseAnd( oldFlags, Bitwise.OnesComplement( flag ) )
else
newFlags = BitwiseOr( oldFlags, flag )
end
styleFlags = SetWindowLong( w, style, newFlags )
styleFlags = SetWindowPos( w, 0, 0, 0, 0, 0, SWP_NOMOVE +_
SWP_NOSIZE + SWP_NOZORDER + SWP_FRAMECHANGED )
#else
#pragma unused w
#pragma unused flag
#pragma unused set
#pragma unused ex
#endif
End Sub
#tag EndMethod
#tag Method, Flags = &h0
Sub LineSpacingWFS(extends EditField1 as EditField, spacing as Double)
#if TargetWin32
Dim EM_SETPARAFORMAT as Integer = &h400 + 71
Dim EM_HIDESELECTION as Integer = &h400 + 63
Dim paraFormat2 as new MemoryBlock( 188 )
paraFormat2.Long( 0 ) = paraFormat2.Size
Const PFM_LINESPACING = &h100
Const PFM_SPACEAFTER = &h80
paraFormat2.Long( 4 ) = PFM_LINESPACING
dim spacingRule as Integer
select case spacing
case 1
spacingRule = 0
case 1.5
spacingRule = 1
case 2
spacingRule = 2
end select
paraFormat2.Byte( 170 ) = spacingRule
Declare Sub SendMessageA Lib "User32" ( hwnd as Integer, msg as Integer, wParam as Integer, lParam as Ptr )
// If the user has something selected, then we
// want to apply to just that paragraph. However,
// if they don't have anything selected, then we
// want to apply to the whole field.
dim restoreSelectionPoint as Integer = -1
if EditField1.SelLength > 0 then
// Just use what the user has
else
// Hide the selection
SendMessageA( EditField1.Handle, EM_HIDESELECTION, 1, nil )
restoreSelectionPoint = EditField1.SelStart
EditField1.SelStart = 0
EditField1.SelLength = -1
end if
// Set the format
SendMessageA( EditField1.Handle, EM_SETPARAFORMAT, 0, paraFormat2 )
if restoreSelectionPoint >= 0 then
// Restore the selection
EditField1.SelStart = restoreSelectionPoint
EditField1.SelLength = 0
// Show the selection
SendMessageA( EditField1.Handle, EM_HIDESELECTION, 0, nil )
end if
#else
#pragma unused EditField1
#pragma unused spacing
#endif
End Sub
#tag EndMethod
#tag Method, Flags = &h0
Function SunkenWFS(extends e as EditField) As Boolean
Const ES_SUNKEN = &h4000
return TestWindowStyle( e.Handle, ES_SUNKEN )
End Function
#tag EndMethod
#tag Method, Flags = &h0
Sub SunkenWFS(extends e as EditField, assigns set as Boolean)
Const ES_SUNKEN = &h4000
Const WS_EX_CLIENTEDGE = &h200
ChangeWindowStyle( e.Handle, ES_SUNKEN, set )
ChangeWindowStyle( e.Handle, WS_EX_CLIENTEDGE, set, true )
End Sub
#tag EndMethod
#tag Method, Flags = &h21
Private Function TestWindowStyle(w as Integer, flag as Integer, ex as Boolean = false) As Boolean
#if TargetWin32
Dim oldFlags as Integer
Const GWL_STYLE = -16
Const GWL_EXSTYLE = -20
Declare Function GetWindowLong Lib "user32" Alias "GetWindowLongA" (hwnd As Integer, _
nIndex As Integer) As Integer
dim style as Integer = GWL_STYLE
if ex then style = GWL_EXSTYLE
oldFlags = GetWindowLong( w, style )
if Bitwise.BitAnd( oldFlags, flag ) = flag then
return true
else
return false
end
#else
#pragma unused w
#pragma unused flag
#pragma unused ex
#endif
End Function
#tag EndMethod
#tag ViewBehavior
#tag ViewProperty
Name="Index"
Visible=true
Group="ID"
InitialValue="-2147483648"
InheritedFrom="Object"
#tag EndViewProperty
#tag ViewProperty
Name="Left"
Visible=true
Group="Position"
InitialValue="0"
InheritedFrom="Object"
#tag EndViewProperty
#tag ViewProperty
Name="Name"
Visible=true
Group="ID"
InheritedFrom="Object"
#tag EndViewProperty
#tag ViewProperty
Name="Super"
Visible=true
Group="ID"
InheritedFrom="Object"
#tag EndViewProperty
#tag ViewProperty
Name="Top"
Visible=true
Group="Position"
InitialValue="0"
InheritedFrom="Object"
#tag EndViewProperty
#tag EndViewBehavior
End Module
#tag EndModule
| REALbasic | 5 | bskrtich/WFS | Windows Functionality Suite/UI Extras/Modules/EditFieldExtensionsWFS.rbbas | [
"MIT"
] |
/*---------------------------------------------------------------------------------------------
* Copyright (c) Microsoft Corporation. All rights reserved.
* Licensed under the MIT License. See License.txt in the project root for license information.
*--------------------------------------------------------------------------------------------*/
import { Disposable } from 'vs/base/common/lifecycle';
import { Event, Emitter } from 'vs/base/common/event';
export interface INotebookFindFiltersChangeEvent {
markupInput?: boolean;
markupPreview?: boolean;
codeInput?: boolean;
codeOutput?: boolean;
}
export class NotebookFindFilters extends Disposable {
private readonly _onDidChange: Emitter<INotebookFindFiltersChangeEvent> = this._register(new Emitter<INotebookFindFiltersChangeEvent>());
readonly onDidChange: Event<INotebookFindFiltersChangeEvent> = this._onDidChange.event;
private _markupInput: boolean = true;
get markupInput(): boolean {
return this._markupInput;
}
set markupInput(value: boolean) {
if (this._markupInput !== value) {
this._markupInput = value;
this._onDidChange.fire({ markupInput: value });
}
}
private _markupPreview: boolean = true;
get markupPreview(): boolean {
return this._markupPreview;
}
set markupPreview(value: boolean) {
if (this._markupPreview !== value) {
this._markupPreview = value;
this._onDidChange.fire({ markupPreview: value });
}
}
private _codeInput: boolean = true;
get codeInput(): boolean {
return this._codeInput;
}
set codeInput(value: boolean) {
if (this._codeInput !== value) {
this._codeInput = value;
this._onDidChange.fire({ codeInput: value });
}
}
private _codeOutput: boolean = true;
get codeOutput(): boolean {
return this._codeOutput;
}
set codeOutput(value: boolean) {
if (this._codeOutput !== value) {
this._codeOutput = value;
this._onDidChange.fire({ codeOutput: value });
}
}
constructor(
markupInput: boolean,
markupPreview: boolean,
codeInput: boolean,
codeOutput: boolean
) {
super();
this._markupInput = markupInput;
this._markupPreview = markupPreview;
this._codeInput = codeInput;
this._codeOutput = codeOutput;
}
update(v: NotebookFindFilters) {
this._markupInput = v.markupInput;
this._markupPreview = v.markupPreview;
this._codeInput = v.codeInput;
this._codeOutput = v.codeOutput;
}
}
| TypeScript | 5 | sbj42/vscode | src/vs/workbench/contrib/notebook/browser/contrib/find/findFilters.ts | [
"MIT"
] |
@viewport {
min-width: 640px;
max-width: 800px;
}
@viewport {
min-width: 640px;
max-width: 800px;
}
@viewport{
min-width: 640px;
max-width: 800px;
}
@viewport {
min-width: 640px;
max-width: 800px;
}
@viewport
{
min-width
:
640px
;
max-width
:
800px
;
}
@viewport
{
min-width
:
640px
;
max-width
:
800px
;
}
| CSS | 1 | fuelingtheweb/prettier | tests/css_atrule/viewport.css | [
"MIT"
] |
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