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// Automatically generated - do not modify! @file:JsModule("@mui/icons-material/SentimentNeutralRounded") @file:JsNonModule package mui.icons.material @JsName("default") external val SentimentNeutralRounded: SvgIconComponent
data vengeance; set modstat.vengeance; tcat=t; run; /* Régression linéaire avec structure autorégressive d'ordre 1 hétérogène pour les erreurs */ proc mixed data=vengeance method=reml; class id tcat; model vengeance = sexe age vc wom t / solution; repeated tcat / subject=id type=arh(1) r=1 rcorr=1; run; /* Régression linéaire avec variance non-structurée pour les erreurs */ proc mixed data=vengeance method=reml; class id tcat; model vengeance = sexe age vc wom t / solution; repeated tcat / subject=id type=un r=1 rcorr=1; run;
Class { #name : #FLStandardFileStreamSerializationTest, #superclass : #FLBasicSerializationTest, #category : #FuelTests } { #category : #running } FLStandardFileStreamSerializationTest >> setUp [ super setUp. self useStandardFileStream ]
-- Copyright (c) 2018 Brendan Fennell <[email protected]> -- -- Permission is hereby granted, free of charge, to any person obtaining a copy -- of this software and associated documentation files (the "Software"), to deal -- in the Software without restriction, including without limitation the rights -- to use, copy, modify, merge, publish, distribute, sublicense, and/or sell -- copies of the Software, and to permit persons to whom the Software is -- furnished to do so, subject to the following conditions: -- -- The above copyright notice and this permission notice shall be included in all -- copies or substantial portions of the Software. -- -- THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR -- IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, -- FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE -- AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER -- LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, -- OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE -- SOFTWARE. library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; package cpu8080_types is -- Register Selection subtype reg_t is unsigned(3 downto 0); constant REG_B : reg_t := x"0"; constant REG_C : reg_t := x"1"; constant REG_D : reg_t := x"2"; constant REG_E : reg_t := x"3"; constant REG_H : reg_t := x"4"; constant REG_L : reg_t := x"5"; constant REG_M : reg_t := x"6"; constant REG_A : reg_t := x"7"; constant REG_W : reg_t := x"8"; constant REG_Z : reg_t := x"9"; constant REG_ACT : reg_t := x"a"; constant REG_TMP : reg_t := x"b"; constant REG_SPH : reg_t := x"c"; constant REG_SPL : reg_t := x"d"; constant REG_PCH : reg_t := x"e"; constant REG_PCL : reg_t := x"f"; -- Register pair selection subtype reg_pair_t is unsigned(2 downto 0); constant REG_PC : reg_pair_t := "000"; constant REG_SP : reg_pair_t := "001"; constant REG_BC : reg_pair_t := "010"; constant REG_DE : reg_pair_t := "011"; constant REG_HL : reg_pair_t := "100"; constant REG_WZ : reg_pair_t := "101"; type regfile_cmd_t is record wr : std_logic; rd : std_logic; incpc : std_logic; incrp : std_logic; decrp : std_logic; mov : std_logic; xchg : std_logic; reg_a : reg_t; reg_b : reg_t; end record; constant regfile_cmd_null_c : regfile_cmd_t := ( wr => '0', rd => '0', incpc => '0', incrp => '0', decrp => '0', mov => '0', xchg => '0', reg_a => REG_A, reg_b => REG_B ); -- ALU flags type alu_flags_t is record carry : std_logic; aux_carry : std_logic; zero : std_logic; parity : std_logic; sign : std_logic; end record; constant alu_flags_null_c : alu_flags_t := ( carry => '0', aux_carry => '0', zero => '0', parity => '0', sign => '0' ); type ctrlreg_cmd_t is record instr_wr : std_logic; alu_flags_wr : std_logic; alu_carry_wr : std_logic; alu_carry_set : std_logic; alu_psw_wr : std_logic; alu_flags_store : std_logic; inten_set : std_logic; val : std_logic; end record; constant ctrlreg_cmd_null_c : ctrlreg_cmd_t := ( instr_wr => '0', alu_flags_wr => '0', alu_carry_wr => '0', alu_carry_set => '0', alu_psw_wr => '0', alu_flags_store => '0', inten_set => '0', val => '0' ); -- REGFILE: data in select constant REGF_DIN_SEL_MDATA : std_logic_vector(1 downto 0) := "00"; constant REGF_DIN_SEL_ALUO : std_logic_vector(1 downto 0) := "01"; constant REGF_DIN_SEL_CTRLO : std_logic_vector(1 downto 0) := "10"; constant REGF_DIN_SEL_PORTI : std_logic_vector(1 downto 0) := "11"; -- MUNIT: address in select constant MUNIT_AIN_SEL_PC : std_logic := '0'; constant MUNIT_AIN_SEL_RP : std_logic := '1'; -- MUNIT: data in select constant MUNIT_DIN_SEL_REGA : std_logic_vector(2 downto 0) := "001"; constant MUNIT_DIN_SEL_REGB : std_logic_vector(2 downto 0) := "010"; constant MUNIT_DIN_SEL_ALUO : std_logic_vector(2 downto 0) := "011"; constant MUNIT_DIN_SEL_CTRLO : std_logic_vector(2 downto 0) := "100"; constant MUNIT_DIN_SEL_PSW : std_logic_vector(2 downto 0) := "101"; -- ALU ops subtype alu_op_t is unsigned(4 downto 0); constant alu_op_nop : alu_op_t := "00000"; constant alu_op_add : alu_op_t := "00001"; constant alu_op_adc : alu_op_t := "00010"; constant alu_op_sub : alu_op_t := "00011"; constant alu_op_sbb : alu_op_t := "00100"; constant alu_op_and : alu_op_t := "00101"; constant alu_op_xor : alu_op_t := "00110"; constant alu_op_or : alu_op_t := "00111"; constant alu_op_rlc : alu_op_t := "01000"; constant alu_op_rrc : alu_op_t := "01001"; constant alu_op_ral : alu_op_t := "01010"; constant alu_op_rar : alu_op_t := "01011"; constant alu_op_cma : alu_op_t := "01100"; constant alu_op_daa : alu_op_t := "01101"; constant alu_op_cmp : alu_op_t := "01110"; constant alu_op_dcr : alu_op_t := "01111"; constant alu_op_inr : alu_op_t := "10000"; constant alu_op_ani : alu_op_t := "10001"; type opcode_t is (aci, adc, adcm, add, addm, adi, ana, anam, ani, call, cc, cm, cma, cmc, cmp, cmpm, cnc, cnz, cp, cpe, cpi, cpo, cz, daa, dad, dcr, dcrm, dcx, di, ei, hlt, inport, inr, inrm, inx, jc, jm, jmp, jnc, jnz, jp, jpe, jpo, jz, lda, ldax, lhld, lxi, movr2r, movr2m, movm2r, mvi2r, mvi2m, nop, ora, oram, ori, outport, pchl, pop, poppsw, push, pushpsw, ral, rar, rc, ret, rlc, rm, rnc, rnz, rp, rpe, rpo, rrc, rst0, rst1, rst2, rst3, rst4, rst5, rst6, rst7, rz, sbb, sbbm, sbi, shld, sphl, sta, stax, stc, sub, subm, sui, xchg, xra, xram, xri, xthl, und ); end cpu8080_types; package body cpu8080_types is end cpu8080_types;
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module Issue478c where record Ko (Q : Set) : Set₁ where field T : Set foo : (Q : Set)(ko : Ko Q) → Ko.T ko foo Q ko = Set -- We should make sure not to destroy printing -- outside the record module. Type should be -- printed as it's given: Ko.T ko
/* * Copyright (C) 2017-2019 Dremio Corporation * * 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 = "proto3"; option java_package = "com.dremio.service.jobresults"; option optimize_for = SPEED; option java_generate_equals_and_hash = true; option java_multiple_files = true; option java_outer_classname = "JobResultsServiceRPC"; package dremio.jobresults; import "UserBitShared.proto"; import "GeneralRPC.proto"; import "google/protobuf/empty.proto"; service JobResultsService { rpc jobResults(stream JobResultsRequest) returns (stream JobResultsResponse); } message JobResultsRequest { exec.shared.QueryData header = 1; int64 sequenceId = 2; bytes data = 3; } message JobResultsResponse { exec.rpc.Ack ack = 1; int64 sequenceId = 2; }
defmodule Hopper.Accounts do @moduledoc """ The Accounts context. """ alias Hopper.Repo alias Hopper.Rides alias Hopper.Accounts.User @doc """ Returns the list of users. ## Examples iex> list_users() [%{}, ...] """ def list_users do {:ok, result} = Repo.query(""" FOR user IN users let routes = (#{used_routes("user")}) RETURN MERGE(user, { routes }) """) result end @doc """ Gets a single user. Raises `Ecto.NoResultsError` if the User does not exist. ## Examples iex> get_user(123) {:ok %{}} iex> get_user!(456) ** (Ecto.NoResultsError) """ def get_user(id) do {:ok, result} = Repo.query(""" let user = DOCUMENT("users/#{id}") let routes = (#{used_routes("user")}) RETURN MERGE(user, { routes }) """) {:ok, result |> List.first()} end @doc """ Creates a user. ## Examples iex> create_user(%{field: value}) {:ok, %User{}} iex> create_user(%{field: bad_value}) {:error, %Ecto.Changeset{}} """ def create_user(attrs \\ %{}) do %User{} |> User.changeset(attrs) |> Repo.insert() end @doc """ Updates a user. ## Examples iex> update_user(user, %{field: new_value}) {:ok, %User{}} iex> update_user(user, %{field: bad_value}) {:error, %Ecto.Changeset{}} """ def update_user(id, attrs) do %User{} |> User.changeset(attrs) |> Repo.update(id) end @doc """ Deletes a User. ## Examples iex> delete_user(id) :ok iex> delete_user(user) {:error, 404} """ def delete_user(id) do Repo.delete(User, id) end @doc """ Returns an `%Ecto.Changeset{}` for tracking user changes. ## Examples iex> change_user(user) %Ecto.Changeset{source: %User{}} """ def change_user(%User{} = user) do User.changeset(user, %{}) end def create_ride(user_id, %{"used_as" => as, "route_id" => route_id}) do {:ok, _} = Rides.create_used(%{_from: "users/#{user_id}", _to: "routes/#{route_id}", as: as}) get_user(user_id) end defp used_routes(vertex) do """ FOR v, e IN 1..1 OUTBOUND #{vertex} used RETURN MERGE(v, { used_as: e.as }) """ end end
CREATE DATABASE bitrix; CREATE USER 'bitrix'@'localhost' IDENTIFIED BY 'Bitrix-123'; GRANT ALL PRIVILEGES ON *.* TO 'bitrix'@'localhost' WITH GRANT OPTION; CREATE USER 'bitrix'@'%' IDENTIFIED BY 'Bitrix-123'; GRANT ALL PRIVILEGES ON *.* TO 'bitrix'@'%' WITH GRANT OPTION; FLUSH PRIVILEGES;
pragma solidity ^0.4.23; import ; import ; import ; import ; import ; import ; contract estateregistry is migratable, erc721token, ownable, metadataholderbase, iestateregistry, estatestorage { modifier cantransfer(uint256 estateid) { require(isapprovedorowner(msg.sender, estateid), ); _; } modifier onlyregistry() { require(msg.sender == address(registry), ); _; } modifier onlyupdateauthorized(uint256 estateid) { require(_isupdateauthorized(msg.sender, estateid), ); _; } function mint(address to) external onlyregistry returns (uint256) { return _mintestate(to, ); } function mint(address to, string metadata) external onlyregistry returns (uint256) { return _mintestate(to, metadata); } function onerc721received( address , uint256 tokenid, bytes estatetokenidbytes ) external onlyregistry returns (bytes4) { uint256 estateid = _bytestouint(estatetokenidbytes); _pushlandid(estateid, tokenid); return bytes4(0xf0b9e5ba); } function transferland( uint256 estateid, uint256 landid, address destinatary ) external cantransfer(estateid) { return _transferland(estateid, landid, destinatary); } function transfermanylands( uint256 estateid, uint256[] landids, address destinatary ) external cantransfer(estateid) { uint length = landids.length; for (uint i = 0; i < length; i++) { _transferland(estateid, landids[i], destinatary); } } function getlandestateid(uint256 landid) external view returns (uint256) { return landidestate[landid]; } function setlandregistry(address _registry) external onlyowner { require(_registry.iscontract(), ); require(_registry != 0, ); registry = landregistry(_registry); emit setlandregistry(registry); } function ping() external { registry.ping(); } function getestatesize(uint256 estateid) external view returns (uint256) { return estatelandids[estateid].length; } function updatemetadata( uint256 estateid, string metadata ) external onlyupdateauthorized(estateid) { _updatemetadata(estateid, metadata); emit update( estateid, ownerof(estateid), msg.sender, metadata ); } function getmetadata(uint256 estateid) external view returns (string) { return estatedata[estateid]; } function setupdateoperator(uint256 estateid, address operator) external cantransfer(estateid) { updateoperator[estateid] = operator; emit updateoperator(estateid, operator); } function isupdateauthorized(address operator, uint256 estateid) external view returns (bool) { return _isupdateauthorized(operator, estateid); } function initialize( string _name, string _symbol, address _registry ) public isinitializer(, ) { require(_registry != 0, ); erc721token.initialize(_name, _symbol); ownable.initialize(msg.sender); registry = landregistry(_registry); } function safetransfermanyfrom(address from, address to, uint256[] estateids) public { safetransfermanyfrom( from, to, estateids, ); } function safetransfermanyfrom( address from, address to, uint256[] estateids, bytes data ) public { for (uint i = 0; i < estateids.length; i++) { safetransferfrom( from, to, estateids[i], data ); } } function _mintestate(address to, string metadata) internal returns (uint256) { require(to != address(0), ); uint256 estateid = _getnewestateid(); _mint(to, estateid); _updatemetadata(estateid, metadata); emit createestate(to, estateid, metadata); return estateid; } function _updatemetadata(uint256 estateid, string metadata) internal { estatedata[estateid] = metadata; } function _getnewestateid() internal view returns (uint256) { return totalsupply().add(1); } function _pushlandid(uint256 estateid, uint256 landid) internal { require(exists(estateid), ); require(landidestate[landid] == 0, ); require(registry.ownerof(landid) == address(this), ); estatelandids[estateid].push(landid); landidestate[landid] = estateid; estatelandindex[estateid][landid] = estatelandids[estateid].length; emit addland(estateid, landid); } function _transferland( uint256 estateid, uint256 landid, address destinatary ) internal { require(destinatary != address(0), ); uint256[] storage landids = estatelandids[estateid]; mapping(uint256 => uint256) landindex = estatelandindex[estateid]; require(landindex[landid] != 0, ); uint lastindexinarray = landids.length.sub(1); uint indexinarray = landindex[landid].sub(1); uint temptokenid = landids[lastindexinarray]; landindex[temptokenid] = indexinarray.add(1); landids[indexinarray] = temptokenid; delete landids[lastindexinarray]; landids.length = lastindexinarray; landindex[landid] = 0; landidestate[landid] = 0; registry.safetransferfrom(this, destinatary, landid); emit removeland(estateid, landid, destinatary); } function _isupdateauthorized(address operator, uint256 estateid) internal view returns (bool) { return isapprovedorowner(operator, estateid) || updateoperator[estateid] == operator; } function _bytestouint(bytes b) internal pure returns (uint256) { bytes32 out; for (uint i = 0; i < b.length; i++) { out |= bytes32(b[i] & 0xff) >> (i * 8); } return uint256(out); } }
;;; vc-darcs-autoloads.el --- automatically extracted autoloads ;; ;;; Code: (add-to-list 'load-path (directory-file-name (or (file-name-directory #$) (car load-path)))) ;;;### (autoloads nil nil ("vc-darcs.el") (22995 1690 885331 241000)) ;;;*** ;; Local Variables: ;; version-control: never ;; no-byte-compile: t ;; no-update-autoloads: t ;; End: ;;; vc-darcs-autoloads.el ends here
#!/bin/bash export dashboard_json=$(cat dashboard.json|tr "\n" " ") dashboard_json='{"dashboard":'"$dashboard_json"'}' curl http://admin:admin@localhost:3000/api/dashboards/db -X POST -H 'Content-Type: application/json;charset=UTF8' --data-binary ''"$dashboard_json"''
<?php namespace App\Http\Controllers\Auth; use App\User; use Validator; use App\Http\Controllers\Controller; use Illuminate\Foundation\Auth\ThrottlesLogins; use Illuminate\Foundation\Auth\AuthenticatesAndRegistersUsers; class AuthController extends Controller { /* |-------------------------------------------------------------------------- | Registration & Login Controller |-------------------------------------------------------------------------- | | This controller handles the registration of new users, as well as the | authentication of existing users. By default, this controller uses | a simple trait to add these behaviors. Why don't you explore it? | */ use AuthenticatesAndRegistersUsers, ThrottlesLogins; /** * Where to redirect users after login / registration. * * @var string */ protected $redirectTo = '/'; /** * Create a new authentication controller instance. * * @return void */ public function __construct() { $this->middleware($this->guestMiddleware(), ['except' => 'logout']); } /** * Get a validator for an incoming registration request. * * @param array $data * @return \Illuminate\Contracts\Validation\Validator */ protected function validator(array $data) { return Validator::make($data, [ 'name' => 'required|max:255', 'email' => 'required|email|max:255|unique:users', 'password' => 'required|min:6|confirmed', ]); } /** * Create a new user instance after a valid registration. * * @param array $data * @return User */ protected function create(array $data) { return User::create([ 'name' => $data['name'], 'email' => $data['email'], 'password' => bcrypt($data['password']), ]); } protected function postLogin(Request $request){ var_dump($request); } protected function getLogin(){ return view('login'); } }
--- title: "TP Transcriptome : Analyse de données de puces à ADN" author: "Vincent Guillemot, Cathy Philippe, Marie-Anne Debily" date: "23 octobre 2015" output: pdf_document --- # Problématique Biologique : la différenciation des kératinocytes Les kératinocytes subissent en permanence une évolution morphologique témoignant de leur kératinisation sous-tendant le rôle de barrière protectrice (mécanique et chimique) de l'épiderme. Cette évolution se fait de la profondeur vers la superficie et permet de distinguer sur une coupe d'épiderme quatre couches superposées de la profondeur vers la superficie : la couche germinative (ou basale), la couche à épines (ou épineuse), la couche granuleuse et la couche cornée (compacte, puis desquamante) : Figure 1. ![alt text](figure1.png) \begin{center} Figure 1 : Structure de l’épiderme. \end{center} La **couche germinative ou basale** assure par les mitoses de ses cellules le renouvellement de l'épiderme ; ses cellules, cubiques ou prismatiques, contiennent de nombreux grains de mélanine phagocytés qui permettent à l'épiderme d'assurer son rôle de protection de la lumière et qui sous-tendent le rôle de régulation de la pigmentation cutanée qu'ont les kératinocytes. Dans la **couche épineuse**, les cellules commencent à s'aplatir, mais le noyau et les organites cytoplasmiques sont intacts, les filaments intermédiaires de kératine groupés en faisceaux denses, les desmosomes normaux. Dans la **couche granuleuse**, la cellule est très aplatie, le noyau commence à dégénérer et surtout apparaissent au sein des trousseaux de filaments de kératine de nombreux grains de kératohyaline. Enfin, dans la **couche cornée**, le kératinocyte (qui prend maintenant le nom de cornéocyte) est complètement aplati, le noyau et les organites cytoplasmiques ont totalement disparu et le cytoplasme est rempli de trousseaux fibrillaires formés à partir des filaments de kératine et des grains de kératohyaline. En superficie de la couche cornée, les cornéocytes, se détachent de l'épiderme (desquamation). Le kératinocyte passe donc d’un état prolifératif dans la couche basale à un état de différenciation terminale dans la couche cornée avant sa mort cellulaire et sa desquamation. Dans la peau, ce cycle de différenciation dure une vingtaine de jours. Ce processus de différenciation peut-être reproduit *in vitro*. Notamment, en culture, les kératinocytes se différencient naturellement à partir du moment où la confluence est atteinte, cette technique a été utilisée pour générer les données que nous allons analyser. # Objectif L’objectif du TP est d’analyser la modulation de l'expression des gènes au cours de la différenciation in vitro de kératinocytes humains. Des expériences d'analyse du transcriptome ont été réalisées en utilisant des puces à ADN sur lesquelles ont été déposées des oligonucléotides longs. Répondez aux questions dans un document Rmarkdown produisant un fichier __PDF__. Pour afficher l'aide sur la syntaxe de Rmarkdown, cliquez sur le point d'interrogation dans la barre d'outil d'édition. # Données Au total les lames contiennent __26495 spots__. Les cellules ont été cultivées *in vitro* dans des conditions de prolifération (noté P dans le nom de l'échantillon) ou de différenciation (noté D dans le nom de l'échantillon). Pour chaque état P ou D, une extraction d'ARN a été faite pour 3 individus différents (I1, I2 et I3). Deux inversions de marquage ont ensuite été réalisées pour chaque échantillon en utilisant une référence commune (le numéro de l'inversion de fluorochrome est noté `_1` ou `_2` dans le nom de l'échantillon et le fluorochrome de l'ARN test est noté `_3` pour Cy3 et `_5` pour Cy5). # Analyse des données ## 1. Lecture de fichiers de données > **Question** : Chargez en mémoire les fichiers `data1_R.txt`, `data1_G.txt`, `data2_M.txt`, `data2_A.txt`, `pheno.txt` et `pheno_ds.txt`. Expliquez chacune des options utilisée. > **Question** : Quelle est la classe des objets chargés en mémoire et quelles en sont les dimensions ? Affichez un extrait de chaque structure. ## 2. Normalisation `data1_R` contient les intensités brutes dans le fluorochrome Cy5 (Red) pour chaque puce. `data1_G` contient les intensités brutes dans le fluorochrome Cy3 (Green) pour chaque puce. `pheno` contient le descriptif des échantillons hybridés sur chaque puce. Le **MA-plot** est une figure de mérite de l'analyse de données de puces en expression. Le `M`, pour "Minus", correspond à la différence des logarithmes d'intensité entre les deux fluorochromes. Le `A`, pour "Average", correspond à la moyenne des logarithmes d'intensités. Les graphes representent `M(A)` pour chaque spot d'une puce, en nuage de points. > **Question** : Calculez `M` et `A` pour chaque lame de microarray. Produisez à partir des données fournies les **MA-plots** des données avant normalisation, pour chaque puce. Tracez en rouge la ligne M=0. Donnez les commandes utilisées et expliquez chacune des options utilisées. Indication : Utilisez la fonction `layout()` pour la mise en page des graphes. Les mettre dans une grille de sorte qu'ils tiennent tous sur la meme page. Utilisez un device __png__, puis incluez-le dans le document Rmarkdown. > **Question** : Quelle doit être la forme du nuage de points ? Est-ce le cas pour toutes les puces ? Sinon, pourquoi les nuages de points sont-ils déformés ? `data2_M` contient les `M` normalisés pour chaque puce. `data2_A` contient les `A` normalisés pour chaque puce. > **Question** : Produisez les *MA-plots* sur données normalisées pour chaque puce, en utillisant la meme mise en page. Quels sont les changements observés? Nous allons visualiser la proximité relative des observations, grâce à une __Analyse en Composantes Principales__. Il s'agit d'une méthode d'analyse multivariées par réduction de dimension. Les composantes principales sont des combinaisons linéaires des variables. Elles ont pour contraintes de maximiser la variance entre les observations et d'être orthogonales entre elles. Le nombre de composantes est égal au rang de la matrice des données. On utilise la fonction `prcomp` de `R base`. > **Question** : Centrez les données à l'aide de la fonction `scale()`. Calculez les composantes grâce à la fonction `prcomp`. Combien y a-t-il de composantes ? Représentez graphiquement les observations en fonction des deux premières composantes, colorez les points en fonction de la colonne "dye" et changez la forme des points (paramètre `pch` de la fonction `plot`) en fonction de la colonne "prodiff" du tableau de données "pheno". Incluez le graphe directement sans passer par un fichier annexe. Que constatez-vous ? Le biais résiduel se corrige grâce au "dye-swap" (inversion de fluorochrome). Pour chaque comparaison, chaque condition sera marquée une fois en rouge (Cy5) et une fois en vert (Cy3). La moyenne des `M` et des `A`, sur les deux sens de marquage permet d'obtenir une mesure d'intentsité unique corrigée pour le biais d'intensité. > **Question** : Calculez les `M` et les `A`, sur les deux sens de marquages. Produisez les *MA-plots* correspondants, avec la meme mise en page que les *MA-plots* précedents. Que constatez-vous ? Il s'agit maintenant de pouvoir comparer toutes les conditions entre elles. Pour pouvoir ultérieurement, appliquer un test statistique, il faut au préalable s'assurer que les distributions les données de chaque conditions sont comparables. Un moyen de s'en assurer est de produire un graphe en boîte à moustaches (`boxplot`), qui visualise pour chaque condition la médiane des `log(intensités des sondes)`, les premier et troisième quartiles ainsi que les queues de distributions. Les données qui nous intéressent sont les `M`, c'est-à-dire la différence d'intensité et donc d'expression entre le fluorochrome, qui marque l'échantillon *test* et celui qui marque l'échantillon *référence*. > **Question** : Produisez les *boxplots* des données normalisées. Si les conditions sont comparables entre elles, quelle figure doit-on obtenir ? Qu'obtenez-vous ? Quelle est votre conclusion ? Nous allons procéder à la normalisation des __quantiles__, grâce à la fonction `normalizeBetweenArrays` du package `limma`. Pour cela, sourcez le fichier `biocLite.R`, qui se trouve à l'URL suivante : [http://www.bioconductor.org/](http://www.bioconductor.org/); Installez le package `limma` en utilisant la commande suivante : `biocLite("limma")`. > **Question** : Chargez le package `limma` dans l'environnement de travail. Affichez l'aide de la fonction `normalizeBetweenArrays`. Procédez à la normalisation. Justifiez les paramètres choisis. Produisez les *boxplots* des données après normalisation des quantiles. Que constatez-vous ? Les données sont à présent normalisées et prêtes à l'emploi. Le fichier `pheno_ds.txt` contient le descriptif des échantillons une fois normalisés en "dye-swap". > **Question** : Calculez à nouveau des composantes principales de la matrice des `M` obtenus et représentez graphiquement les observations en fonctions des deux premières composantes principales. La couleur des points s'affichera en fonction de la colonne "ID" du tableau de données `pheno_ds` et la forme des points s'affichera en fonction de la colonne "prodiff". Que constatez-vous?
import-module au . $PSScriptRoot\..\_scripts\all.ps1 $releases = 'https://github.com/extrawurst/gitui/releases' function global:au_SearchReplace { @{ ".\tools\chocolateyInstall.ps1" = @{ "(^\s*\`$url\s*=\s*)('.*')"= "`$1'$($Latest.URL32)'" "(^\s*checksum\s*=\s*)('.*')" = "`$1'$($Latest.Checksum32)'" } "$($Latest.PackageName).nuspec" = @{ "(\<releaseNotes\>).*?(\</releaseNotes\>)" = "`${1}$($Latest.ReleaseNotes)`$2" } #".\legal\VERIFICATION.txt" = @{ # "(?i)(\s+x32:).*" = "`${1} $($Latest.URL32)" # "(?i)(checksum32:).*" = "`${1} $($Latest.Checksum32)" # "(?i)(Get-RemoteChecksum).*" = "`${1} $($Latest.URL32)" #} } } function global:au_BeforeUpdate { Get-RemoteFiles -Purge } function global:au_AfterUpdate { Set-DescriptionFromReadme -SkipFirst 4 -SkipLast 1 } function global:au_GetLatest { $download_page = Invoke-WebRequest -Uri $releases # $download_page.links uses regex internally and is REAL SLOW when parsing large pages.. $links = $download_page.RawContent.split(@("<a "), [stringsplitoptions]::None) | select -Skip 1 Write-Host " - found $($links.Count) anchor-tags" $links = $links | % { $_.split(@(">"),2, [stringsplitoptions]::None)[0] } | % { $_.split(@("href="),2, [stringsplitoptions]::None)[1].Substring(1) } | % { $_.split(@(""""), 2, [stringsplitoptions]::None)[0] } | ? {![string]::IsNullOrWhiteSpace($_)} Write-Host " - found $($links.Count) links" $re = "gitui-win.tar.gz" $url = $links | ? { $_ -match $re } | select -First 1 $url = 'https://github.com' + $url Write-Host "Found url: $url" $version = $url -split '\/' | select -Last 2 | select -First 1 Write-Host "Found version: $version" return @{ URL32 = $url Version = $version.Replace("v", "") ReleaseNotes = "$releases/tag/${version}" } } update-package -ChecksumFor none -NoReadme
#lang scribble/acmart @acmsmall @10pt @screen @(require "main.rkt" "bib.rkt" scriblib/footnote) @title[#:tag "sec:related"]{Related Work} Thorn@~cite{wzlov-popl-2010} and StrongScript@~cite{rzv-ecoop-2015} support a combination of sound concrete types and erased @emph{like} types. Thorn is a scalable scripting language that compiles to the JVM@~cite{bfnorsvw-oopsla-2009}. StrongScript extends TypeScript@~cite{bat-ecoop-2014} with concrete types. Both languages are supported by formal models with proofs of type soundness. Pyret uses @|sdeep| checks for fixed-size data and @|sshallow| checks for other data.@note{Personal communication. @shorturl["https://www.pyret.org" "pyret.org"]} For example, pair types get a @|sdeep| check and function types get a @|sshallow| check. Static Python combines @|sshallow| and concrete checks.@note{Personal communication. @shorturl["https://github.com/facebookincubator/cinder" "github.com/facebookincubator/cinder"]} @|sShallow| checks are the default; concrete data structures are available. The model in @section-ref{sec:model} builds on the semantic framework of @citet{gf-icfp-2018}, which is in turn inspired by @citet{mf-toplas-2009}. The model is also inspired by the @exact{\kafka} framework, which introduces four compilers to transform a declarative surface syntax to an evaluation syntax that makes run-time checks manifest@~cite{clzv-ecoop-2018}. @; similar acks for implementation (Sam, TR) and evaluation (Takikawa) ? @; discuss other 3way ideas?
with Ada.Finalization; use Ada.Finalization; package Noreturn4_Pkg is type Priv is private; function It return Priv; function Value (Obj : Priv) return Integer; function OK (Obj : Priv) return Boolean; private type Priv is new Controlled with record Value : Integer := 15; end record; procedure Adjust (Obj : in out Priv); procedure Finalize (Obj : in out Priv); end Noreturn4_Pkg;
# This file must be used with "source bin/activate.csh" *from csh*. # You cannot run it directly. # Created by Davide Di Blasi <[email protected]>. # Ported to Python 3.3 venv by Andrew Svetlov <[email protected]> alias deactivate 'test $?_OLD_VIRTUAL_PATH != 0 && setenv PATH "$_OLD_VIRTUAL_PATH" && unset _OLD_VIRTUAL_PATH; rehash; test $?_OLD_VIRTUAL_PROMPT != 0 && set prompt="$_OLD_VIRTUAL_PROMPT" && unset _OLD_VIRTUAL_PROMPT; unsetenv VIRTUAL_ENV; test "\!:*" != "nondestructive" && unalias deactivate' # Unset irrelevant variables. deactivate nondestructive setenv VIRTUAL_ENV "/Users/mckenziesteenson/Documents/my-project/middleware/venv" set _OLD_VIRTUAL_PATH="$PATH" setenv PATH "$VIRTUAL_ENV/bin:$PATH" set _OLD_VIRTUAL_PROMPT="$prompt" if (! "$?VIRTUAL_ENV_DISABLE_PROMPT") then set prompt = "(venv) $prompt" endif alias pydoc python -m pydoc rehash
# coding: utf-8 lib = File.expand_path('../lib', __FILE__) $LOAD_PATH.unshift(lib) unless $LOAD_PATH.include?(lib) require 'comic_downloader/version' Gem::Specification.new do |spec| spec.name = "comic_downloader" spec.version = ComicDownloader::VERSION spec.authors = ["bomb"] spec.email = ["[email protected]"] spec.summary = "自用的漫画下载器" spec.homepage = "https://github.com/chen7897499/comic_downloader" spec.license = "MIT" spec.files = `git ls-files -z`.split("\x0") spec.executables = ["comic_downloader"] spec.test_files = spec.files.grep(%r{^(test|spec|features)/}) spec.require_paths = ["lib"] spec.add_development_dependency "bundler", "~> 1.5" spec.add_development_dependency "rake" spec.add_runtime_dependency "eventmachine" spec.add_runtime_dependency "mechanize" spec.add_runtime_dependency "nokogiri" spec.add_runtime_dependency "pry" spec.add_runtime_dependency "pry-byebug" end
// SPDX-License-Identifier: MIT pragma solidity 0.8.9; import "./IAccessControlClient.sol"; interface IAccessControlManagerProxy is IAccessControlClient { function initializeRole(bytes32 adminRole, string calldata description) external returns (bytes32 role); function initializeAndGrantRoles( bytes32[] calldata adminRoles, string[] calldata descriptions, address[] calldata accounts ) external returns (bytes32[] memory roles); function grantRole(bytes32 role, address account) external; function revokeRole(bytes32 role, address account) external; function renounceRole(bytes32 role, address account) external; }
# filename: ex301.rq PREFIX d: <http://learningsparql.com/ns/data#> PREFIX t: <http://purl.org/tio/ns#> PREFIX xsd: <http://www.w3.org/2001/XMLSchema#> SELECT ?timezoneTest ?tzTest WHERE { ?mtg t:starts ?startTime . BIND (timezone(?startTime) AS ?timezoneTest) BIND (tz(?startTime) AS ?tzTest) }
set BERT_BASE_DIR=C:\Users\michaels\Projects\bert\uncased_L-12_H-768_A-12 set SQUAD_DIR=C:\Users\michaels\Projects\bert\squad11 python run_squad.py ^ --vocab_file=%BERT_BASE_DIR%\vocab.txt ^ --bert_config_file=%BERT_BASE_DIR%\bert_config.json ^ --init_checkpoint=%BERT_BASE_DIR%\bert_model.ckpt ^ --do_train=True ^ --train_file=%SQUAD_DIR%\train-v1.1.json ^ --do_predict=True ^ --predict_file=%SQUAD_DIR%\dev-v1.1.json ^ --train_batch_size=12 ^ --learning_rate=3e-5 ^ --num_train_epochs=2.0 ^ --max_seq_length=384 ^ --doc_stride=128 ^ --output_dir=tmp\squad_base\
struct Struct0 { 1: map<double, float> field1 2: binary field2 3: i64 field3 4: float field4 5: string field5 6: i64 field6 7: set<binary> field7 8: i16 field8 9: i16 field9 10: list<double> field10 11: map<float, list<binary>> field11 12: map<i32, float> field12 13: list<list<binary>> field13 14: i32 field14 15: byte field15 16: bool field16 17: binary field17 18: i16 field18 19: list<byte> field19 20: double field20 21: i64 field21 22: bool field22 23: set<i64> field23 24: map<double, binary> field24 25: map<byte, byte> field25 26: map<float, string> field26 27: byte field27 28: bool field28 29: i64 field29 30: map<set<i16>, binary> field30 31: i32 field31 32: i64 field32 33: map<byte, binary> field33 34: binary field34 35: list<i64> field35 36: set<map<bool, i32>> field36 37: map<list<float>, byte> field37 38: bool field38 39: i32 field39 40: byte field40 41: bool field41 42: list<string> field42 43: byte field43 44: binary field44 45: float field45 46: bool field46 47: bool field47 48: byte field48 49: bool field49 50: i64 field50 51: i32 field51 52: i32 field52 53: float field53 54: double field54 55: i64 field55 56: set<float> field56 57: double field57 58: binary field58 59: i32 field59 60: bool field60 61: set<byte> field61 62: i16 field62 63: bool field63 64: map<byte, i16> field64 65: i16 field65 66: float field66 67: float field67 68: map<i64, list<binary>> field68 69: i64 field69 70: bool field70 71: binary field71 72: string field72 73: binary field73 74: i16 field74 75: bool field75 76: double field76 77: bool field77 78: binary field78 79: set<string> field79 80: bool field80 81: map<string, double> field81 82: map<list<bool>, bool> field82 83: map<i64, double> field83 84: i16 field84 85: set<string> field85 86: i32 field86 87: i32 field87 88: list<i32> field88 89: list<string> field89 90: binary field90 91: byte field91 92: list<bool> field92 93: bool field93 94: bool field94 95: bool field95 96: set<i32> field96 97: binary field97 98: binary field98 99: list<double> field99 100: i64 field100 101: set<string> field101 102: list<float> field102 103: i16 field103 104: double field104 105: list<binary> field105 106: i16 field106 107: set<bool> field107 108: list<i32> field108 109: float field109 110: float field110 111: list<float> field111 112: bool field112 113: string field113 114: i32 field114 115: i32 field115 116: i32 field116 117: double field117 118: string field118 119: list<string> field119 120: map<map<double, float>, float> field120 121: i64 field121 122: bool field122 123: list<binary> field123 } struct Struct1 { 1: set<double> field1 2: Struct0 field2 3: i32 field3 4: binary field4 5: set<bool> field5 6: i32 field6 7: map<i16, byte> field7 8: string field8 9: map<i32, binary> field9 10: i32 field10 11: Struct0 field11 12: i64 field12 13: set<byte> field13 14: list<list<bool>> field14 15: map<i16, i64> field15 16: i64 field16 } struct Struct2 { 1: i64 field1 2: i16 field2 3: byte field3 4: string field4 5: map<set<i16>, list<set<bool>>> field5 6: list<double> field6 7: set<byte> field7 8: map<double, binary> field8 9: map<i32, float> field9 10: binary field10 11: Struct0 field11 12: i64 field12 13: double field13 14: Struct0 field14 15: i32 field15 16: bool field16 17: i32 field17 18: set<bool> field18 19: list<byte> field19 20: list<string> field20 21: Struct0 field21 22: string field22 23: i16 field23 24: list<i16> field24 25: i16 field25 26: double field26 27: set<i64> field27 28: list<double> field28 29: list<float> field29 30: double field30 31: i64 field31 32: string field32 33: list<byte> field33 34: Struct0 field34 35: Struct1 field35 36: bool field36 37: list<i16> field37 38: i32 field38 39: i32 field39 40: bool field40 41: bool field41 42: i32 field42 43: map<Struct1, float> field43 44: float field44 45: set<binary> field45 46: binary field46 47: set<list<byte>> field47 48: bool field48 49: set<i32> field49 50: bool field50 51: set<i16> field51 52: Struct0 field52 53: list<bool> field53 54: Struct0 field54 55: binary field55 56: i16 field56 57: set<double> field57 58: list<i32> field58 59: list<bool> field59 60: byte field60 61: string field61 62: list<bool> field62 63: i16 field63 64: list<float> field64 65: map<map<Struct0, bool>, i32> field65 66: Struct1 field66 67: list<Struct0> field67 68: list<i64> field68 69: set<string> field69 70: map<double, i64> field70 71: map<float, list<bool>> field71 72: double field72 73: i16 field73 74: list<list<i64>> field74 75: Struct1 field75 76: list<i64> field76 77: string field77 78: double field78 79: map<i16, i16> field79 80: list<i32> field80 81: byte field81 82: map<binary, float> field82 83: i64 field83 84: set<map<bool, binary>> field84 85: byte field85 86: i64 field86 87: bool field87 88: string field88 89: map<bool, string> field89 90: byte field90 91: set<binary> field91 92: map<list<i32>, byte> field92 93: set<i64> field93 94: map<i16, set<i32>> field94 95: set<string> field95 96: map<float, bool> field96 97: Struct0 field97 98: Struct0 field98 99: i32 field99 100: list<float> field100 101: set<Struct0> field101 102: map<bool, i32> field102 103: i16 field103 104: float field104 105: list<float> field105 106: i64 field106 107: Struct0 field107 108: i64 field108 109: i64 field109 110: float field110 111: float field111 112: byte field112 113: i16 field113 114: Struct0 field114 115: set<i64> field115 116: set<byte> field116 117: byte field117 118: map<double, set<i32>> field118 119: byte field119 120: binary field120 121: i16 field121 122: list<Struct1> field122 123: list<string> field123 124: i16 field124 125: i16 field125 126: map<bool, binary> field126 127: Struct1 field127 128: byte field128 129: list<map<bool, float>> field129 130: Struct1 field130 131: double field131 132: i16 field132 133: bool field133 134: i64 field134 135: map<double, binary> field135 136: Struct1 field136 137: Struct0 field137 138: i32 field138 139: Struct0 field139 140: set<byte> field140 141: i64 field141 142: map<i64, i64> field142 143: binary field143 144: i16 field144 } struct Struct3 { 1: map<bool, float> field1 2: double field2 3: Struct1 field3 4: map<bool, double> field4 5: map<list<byte>, i64> field5 6: binary field6 7: Struct1 field7 8: i64 field8 9: list<i32> field9 10: set<list<string>> field10 11: list<set<i64>> field11 12: set<map<binary, double>> field12 13: string field13 14: Struct0 field14 15: list<set<map<byte, string>>> field15 16: map<Struct0, string> field16 17: list<Struct1> field17 18: string field18 19: map<bool, bool> field19 20: list<bool> field20 21: i64 field21 22: Struct0 field22 23: byte field23 24: set<byte> field24 25: float field25 26: i32 field26 27: double field27 28: set<Struct0> field28 29: Struct2 field29 30: byte field30 31: set<list<bool>> field31 32: list<list<i16>> field32 33: i32 field33 34: Struct1 field34 35: i16 field35 36: bool field36 37: set<float> field37 38: Struct0 field38 39: byte field39 40: list<byte> field40 41: i32 field41 42: set<string> field42 43: Struct1 field43 44: Struct0 field44 45: set<i64> field45 46: float field46 47: i64 field47 48: list<string> field48 49: map<i16, set<i32>> field49 50: bool field50 51: i64 field51 52: i32 field52 53: list<i16> field53 54: Struct0 field54 55: bool field55 56: Struct1 field56 57: i32 field57 58: bool field58 59: string field59 60: i16 field60 61: Struct0 field61 62: set<float> field62 63: set<map<i16, i64>> field63 64: i32 field64 65: Struct1 field65 66: list<string> field66 67: byte field67 68: bool field68 69: float field69 70: float field70 71: bool field71 72: map<map<binary, byte>, binary> field72 73: i32 field73 74: double field74 75: i64 field75 76: i64 field76 77: list<string> field77 78: list<binary> field78 79: string field79 80: bool field80 81: i64 field81 82: map<double, i64> field82 83: map<i64, list<double>> field83 84: byte field84 85: list<bool> field85 86: double field86 87: float field87 88: float field88 89: string field89 90: i32 field90 91: Struct1 field91 92: set<Struct2> field92 93: float field93 94: i16 field94 95: list<double> field95 96: map<i64, map<double, i64>> field96 97: list<binary> field97 98: map<byte, string> field98 99: i32 field99 100: Struct2 field100 101: list<double> field101 102: i16 field102 103: i16 field103 104: list<double> field104 105: binary field105 106: i16 field106 107: float field107 108: double field108 109: float field109 110: double field110 111: map<byte, Struct0> field111 112: float field112 113: double field113 114: float field114 115: bool field115 116: map<bool, i16> field116 117: string field117 118: Struct0 field118 119: map<string, i32> field119 120: i16 field120 121: float field121 122: bool field122 123: byte field123 124: float field124 125: set<i64> field125 126: i32 field126 127: i16 field127 128: bool field128 129: Struct1 field129 130: Struct0 field130 131: binary field131 132: i16 field132 133: list<string> field133 134: i16 field134 135: list<double> field135 136: set<i16> field136 137: set<float> field137 138: map<float, string> field138 139: map<bool, Struct1> field139 140: set<byte> field140 141: set<bool> field141 142: set<float> field142 143: bool field143 144: Struct2 field144 145: float field145 146: i32 field146 147: string field147 148: set<list<byte>> field148 149: list<i16> field149 150: map<string, double> field150 151: map<set<i32>, i16> field151 152: list<byte> field152 153: float field153 154: map<bool, i64> field154 155: list<Struct1> field155 156: float field156 157: map<i16, set<bool>> field157 158: Struct1 field158 159: i32 field159 160: i16 field160 161: Struct2 field161 162: string field162 163: list<Struct1> field163 164: i64 field164 165: float field165 166: Struct0 field166 167: byte field167 168: bool field168 169: map<float, double> field169 170: i32 field170 171: map<list<double>, double> field171 172: string field172 173: list<list<float>> field173 174: string field174 175: i32 field175 176: i32 field176 177: string field177 178: map<i32, string> field178 179: set<set<string>> field179 180: byte field180 } struct Struct4 { 1: map<double, byte> field1 2: string field2 3: map<double, Struct1> field3 4: map<byte, Struct2> field4 5: binary field5 6: i32 field6 7: map<bool, list<double>> field7 8: bool field8 9: binary field9 10: map<float, byte> field10 11: Struct0 field11 12: list<i64> field12 13: Struct0 field13 14: i64 field14 15: bool field15 16: i64 field16 17: double field17 18: Struct1 field18 19: set<float> field19 20: list<binary> field20 21: map<byte, double> field21 22: list<byte> field22 23: Struct0 field23 24: map<byte, byte> field24 25: byte field25 26: byte field26 27: byte field27 28: map<i16, list<i16>> field28 29: Struct0 field29 30: set<i32> field30 31: map<double, double> field31 32: Struct1 field32 33: i16 field33 34: binary field34 35: set<float> field35 36: float field36 37: list<bool> field37 38: Struct1 field38 39: double field39 40: map<set<float>, set<double>> field40 41: list<string> field41 42: i16 field42 43: i32 field43 44: set<bool> field44 45: string field45 46: list<double> field46 47: map<i16, Struct2> field47 48: set<i16> field48 49: map<map<i32, i32>, i64> field49 50: Struct0 field50 51: i16 field51 52: set<binary> field52 53: bool field53 54: list<binary> field54 55: string field55 56: binary field56 57: list<bool> field57 58: binary field58 59: byte field59 60: byte field60 61: i32 field61 62: Struct1 field62 63: Struct1 field63 64: set<Struct0> field64 65: i32 field65 66: set<bool> field66 67: binary field67 68: map<map<i32, float>, float> field68 69: list<float> field69 70: bool field70 71: bool field71 72: list<i16> field72 73: map<double, Struct1> field73 74: float field74 75: set<map<double, string>> field75 76: set<i32> field76 77: set<byte> field77 78: map<binary, byte> field78 79: map<set<float>, set<map<float, binary>>> field79 80: set<binary> field80 81: map<bool, float> field81 82: i16 field82 83: binary field83 84: byte field84 85: i16 field85 86: map<string, double> field86 87: bool field87 88: list<set<binary>> field88 89: byte field89 90: list<set<i16>> field90 91: bool field91 92: i64 field92 93: i64 field93 94: map<byte, i16> field94 95: binary field95 96: byte field96 97: i16 field97 98: Struct3 field98 99: Struct0 field99 100: map<i16, byte> field100 101: i32 field101 } struct Struct5 { 1: set<double> field1 2: list<i16> field2 3: i16 field3 4: i64 field4 5: float field5 6: bool field6 7: list<binary> field7 8: i32 field8 9: list<map<double, string>> field9 10: i64 field10 11: map<bool, i64> field11 12: map<binary, set<double>> field12 13: string field13 14: Struct2 field14 15: map<list<bool>, i32> field15 16: i32 field16 17: binary field17 18: i64 field18 19: i16 field19 20: map<i32, map<list<byte>, float>> field20 21: list<bool> field21 22: i16 field22 23: float field23 24: i16 field24 25: Struct1 field25 26: set<string> field26 27: list<list<float>> field27 28: map<i64, byte> field28 29: list<i16> field29 30: set<list<i16>> field30 31: map<set<string>, float> field31 32: bool field32 33: binary field33 34: float field34 35: map<set<i64>, double> field35 36: double field36 37: Struct2 field37 38: bool field38 39: i32 field39 40: i64 field40 41: byte field41 42: list<list<i32>> field42 43: set<map<double, byte>> field43 44: set<map<i16, bool>> field44 45: i32 field45 46: i64 field46 47: Struct2 field47 48: double field48 49: Struct0 field49 50: list<map<byte, i32>> field50 51: list<binary> field51 52: Struct1 field52 53: set<i32> field53 54: list<bool> field54 55: Struct2 field55 56: double field56 57: i64 field57 58: Struct1 field58 59: list<byte> field59 60: map<byte, Struct2> field60 61: i32 field61 62: set<map<double, string>> field62 63: binary field63 64: set<string> field64 65: set<string> field65 66: set<list<string>> field66 67: map<float, string> field67 68: set<i32> field68 69: set<set<binary>> field69 70: set<set<string>> field70 71: i32 field71 72: i64 field72 73: Struct1 field73 74: double field74 75: map<binary, i16> field75 76: string field76 77: map<byte, Struct3> field77 78: set<i16> field78 79: Struct2 field79 80: i16 field80 81: list<Struct0> field81 82: set<byte> field82 83: Struct1 field83 84: map<i64, i16> field84 85: set<byte> field85 86: Struct3 field86 87: binary field87 88: list<byte> field88 89: binary field89 90: Struct1 field90 91: Struct2 field91 92: bool field92 93: list<list<set<binary>>> field93 94: string field94 95: float field95 96: i16 field96 } struct Struct6 { 1: set<float> field1 2: set<list<Struct1>> field2 3: bool field3 4: byte field4 5: i64 field5 6: list<string> field6 7: string field7 8: i32 field8 9: byte field9 10: Struct4 field10 11: set<byte> field11 12: map<bool, double> field12 13: map<binary, i16> field13 14: byte field14 15: list<Struct3> field15 16: list<Struct3> field16 17: float field17 18: byte field18 19: double field19 20: list<Struct0> field20 21: bool field21 22: map<list<bool>, bool> field22 23: map<i16, i32> field23 24: i64 field24 25: set<set<string>> field25 26: binary field26 27: map<string, Struct3> field27 28: map<list<map<float, i16>>, string> field28 29: map<i32, i64> field29 30: set<Struct3> field30 31: byte field31 32: list<float> field32 33: byte field33 34: string field34 35: i32 field35 36: set<byte> field36 37: list<list<map<float, i16>>> field37 38: list<string> field38 39: binary field39 40: set<i16> field40 41: double field41 42: double field42 43: map<double, i32> field43 44: double field44 45: map<Struct5, map<Struct1, float>> field45 46: bool field46 47: binary field47 48: i32 field48 49: Struct1 field49 50: set<Struct0> field50 51: byte field51 52: set<string> field52 53: list<Struct1> field53 54: double field54 55: map<list<i64>, list<string>> field55 56: binary field56 57: map<double, i64> field57 58: Struct3 field58 59: map<byte, i32> field59 60: map<double, map<binary, i32>> field60 61: i64 field61 62: byte field62 63: Struct0 field63 64: bool field64 65: set<byte> field65 66: set<byte> field66 67: Struct0 field67 68: i64 field68 69: map<i16, Struct2> field69 70: bool field70 71: i64 field71 72: i64 field72 73: Struct3 field73 74: Struct4 field74 75: byte field75 76: bool field76 77: Struct0 field77 78: double field78 79: i32 field79 80: Struct1 field80 81: bool field81 82: map<i64, i16> field82 83: float field83 84: set<i16> field84 85: double field85 86: string field86 87: set<i32> field87 88: list<byte> field88 89: binary field89 90: Struct3 field90 91: Struct0 field91 92: i32 field92 93: double field93 94: byte field94 95: set<float> field95 96: Struct3 field96 97: float field97 98: Struct0 field98 99: list<i64> field99 100: i16 field100 101: map<bool, binary> field101 102: map<byte, float> field102 103: Struct1 field103 } struct Struct7 { 1: double field1 2: string field2 3: list<float> field3 4: i32 field4 5: i32 field5 6: bool field6 7: byte field7 8: binary field8 9: i64 field9 10: map<float, string> field10 11: binary field11 12: double field12 13: float field13 14: binary field14 15: list<i16> field15 16: set<float> field16 17: i16 field17 18: map<i16, i32> field18 19: binary field19 20: byte field20 21: byte field21 22: i32 field22 23: string field23 24: Struct1 field24 25: float field25 26: set<set<byte>> field26 27: bool field27 28: string field28 29: map<i32, map<set<double>, map<i16, i32>>> field29 30: Struct0 field30 31: double field31 32: map<binary, set<byte>> field32 33: byte field33 34: string field34 35: map<list<i64>, binary> field35 36: i32 field36 37: map<map<i64, byte>, i32> field37 38: string field38 39: map<set<list<i32>>, i32> field39 40: double field40 41: bool field41 42: bool field42 43: float field43 44: Struct1 field44 45: i64 field45 46: map<i32, i32> field46 47: Struct0 field47 48: map<byte, i64> field48 49: set<bool> field49 50: string field50 51: bool field51 52: i64 field52 53: float field53 54: Struct1 field54 55: set<i16> field55 56: list<double> field56 57: set<i64> field57 58: string field58 59: float field59 60: Struct0 field60 61: float field61 62: i64 field62 63: i16 field63 64: i32 field64 65: list<double> field65 66: double field66 67: i64 field67 68: byte field68 69: list<string> field69 70: set<bool> field70 71: Struct1 field71 72: binary field72 73: set<set<string>> field73 74: Struct0 field74 75: binary field75 76: Struct2 field76 77: byte field77 78: set<binary> field78 79: bool field79 80: byte field80 81: i16 field81 82: double field82 83: i16 field83 84: binary field84 85: Struct3 field85 86: list<string> field86 87: map<Struct0, i64> field87 88: byte field88 89: string field89 90: string field90 91: list<float> field91 92: list<bool> field92 93: string field93 94: float field94 95: bool field95 96: string field96 97: list<i16> field97 98: double field98 99: string field99 100: map<i64, map<binary, double>> field100 101: float field101 102: Struct1 field102 103: i64 field103 104: map<binary, i16> field104 105: map<bool, double> field105 106: byte field106 107: i32 field107 108: bool field108 109: Struct2 field109 } struct Struct8 { 1: list<float> field1 2: Struct3 field2 3: list<binary> field3 4: Struct1 field4 5: set<bool> field5 6: i64 field6 7: map<float, map<i16, i64>> field7 8: list<i16> field8 9: float field9 10: list<bool> field10 11: list<Struct1> field11 12: byte field12 13: Struct1 field13 14: i16 field14 15: i64 field15 16: binary field16 } struct Struct9 { 1: string field1 2: float field2 3: float field3 4: binary field4 5: byte field5 6: list<bool> field6 7: set<double> field7 8: set<i64> field8 9: Struct0 field9 10: i64 field10 11: float field11 12: map<i16, Struct3> field12 13: Struct0 field13 14: i64 field14 15: Struct2 field15 16: Struct2 field16 17: i32 field17 18: i32 field18 19: list<set<list<double>>> field19 20: double field20 21: bool field21 22: list<i32> field22 23: Struct2 field23 24: binary field24 25: double field25 26: Struct4 field26 27: list<string> field27 28: set<byte> field28 29: set<i32> field29 30: double field30 31: map<double, set<i16>> field31 32: i64 field32 33: byte field33 34: map<bool, i32> field34 35: bool field35 36: map<i64, string> field36 37: bool field37 38: float field38 39: byte field39 40: set<map<bool, i32>> field40 41: map<Struct2, list<byte>> field41 42: i32 field42 43: string field43 44: i64 field44 45: map<binary, float> field45 46: i32 field46 47: double field47 48: map<i64, string> field48 49: Struct2 field49 50: i64 field50 51: byte field51 52: set<set<i16>> field52 53: i16 field53 54: Struct1 field54 55: list<i32> field55 56: binary field56 57: Struct1 field57 58: map<map<i64, byte>, map<bool, binary>> field58 59: string field59 60: set<bool> field60 61: i64 field61 62: map<i16, float> field62 63: set<list<i16>> field63 64: list<i64> field64 65: map<i64, Struct1> field65 66: i64 field66 67: string field67 68: set<float> field68 69: map<set<Struct4>, Struct2> field69 70: set<i32> field70 71: set<set<double>> field71 72: list<float> field72 } struct Struct10 { 1: string field1 2: double field2 3: float field3 4: set<string> field4 5: map<byte, map<double, bool>> field5 6: binary field6 7: double field7 8: list<float> field8 9: Struct0 field9 10: binary field10 11: i32 field11 12: Struct1 field12 13: double field13 14: i16 field14 15: Struct3 field15 16: set<list<bool>> field16 17: map<Struct1, i64> field17 18: Struct6 field18 19: list<binary> field19 20: double field20 21: list<map<i32, binary>> field21 22: string field22 23: float field23 24: map<i64, bool> field24 25: i64 field25 26: i16 field26 27: list<bool> field27 28: map<binary, string> field28 29: i16 field29 30: set<i16> field30 31: Struct4 field31 32: set<i32> field32 33: byte field33 34: i64 field34 35: list<i32> field35 36: double field36 37: map<string, map<i32, map<double, string>>> field37 38: set<i32> field38 39: bool field39 40: set<string> field40 41: bool field41 42: double field42 43: double field43 44: double field44 45: binary field45 46: i16 field46 47: list<map<double, string>> field47 48: Struct2 field48 49: list<string> field49 50: set<binary> field50 51: Struct6 field51 52: Struct1 field52 53: Struct0 field53 54: double field54 55: byte field55 56: i64 field56 57: map<i32, Struct0> field57 58: i64 field58 59: i16 field59 60: set<double> field60 61: double field61 62: Struct0 field62 63: map<float, float> field63 64: map<float, byte> field64 65: list<float> field65 66: bool field66 67: list<binary> field67 68: list<Struct0> field68 69: set<Struct1> field69 70: list<bool> field70 71: i16 field71 72: Struct7 field72 73: Struct6 field73 74: map<Struct2, binary> field74 75: i64 field75 76: string field76 77: map<i16, binary> field77 78: set<i64> field78 79: map<bool, i64> field79 80: map<Struct3, bool> field80 81: Struct4 field81 82: bool field82 83: Struct5 field83 84: list<string> field84 85: bool field85 86: Struct3 field86 87: i16 field87 88: set<bool> field88 89: Struct0 field89 90: map<Struct1, i16> field90 91: bool field91 92: set<binary> field92 93: map<float, i64> field93 94: list<byte> field94 95: set<bool> field95 96: binary field96 97: i16 field97 98: Struct4 field98 99: set<double> field99 100: string field100 101: set<byte> field101 102: map<string, set<double>> field102 } struct Struct11 { 1: list<float> field1 2: Struct5 field2 3: Struct8 field3 4: byte field4 5: set<Struct2> field5 6: map<i16, byte> field6 7: map<Struct2, list<i64>> field7 8: map<Struct1, i32> field8 9: list<string> field9 10: map<i16, map<i64, float>> field10 11: Struct5 field11 12: bool field12 13: float field13 14: Struct4 field14 15: string field15 16: byte field16 17: list<bool> field17 18: Struct5 field18 19: byte field19 20: i32 field20 21: byte field21 22: map<list<i32>, set<i32>> field22 23: byte field23 24: float field24 25: Struct6 field25 26: set<bool> field26 27: binary field27 28: bool field28 29: byte field29 30: map<byte, double> field30 31: map<map<float, float>, double> field31 32: Struct6 field32 33: set<byte> field33 34: i64 field34 35: byte field35 36: i16 field36 37: binary field37 38: set<bool> field38 39: i16 field39 40: map<i32, Struct2> field40 41: byte field41 42: bool field42 43: float field43 44: i16 field44 45: i32 field45 46: bool field46 47: map<i16, i16> field47 48: map<byte, binary> field48 49: map<i64, i16> field49 50: list<binary> field50 51: list<bool> field51 52: Struct3 field52 53: binary field53 54: set<float> field54 55: float field55 56: map<i32, i16> field56 57: binary field57 58: double field58 59: byte field59 60: byte field60 61: map<i32, bool> field61 62: string field62 63: map<i32, list<i64>> field63 64: map<set<i32>, byte> field64 65: set<byte> field65 66: bool field66 67: double field67 68: Struct10 field68 69: bool field69 70: list<set<Struct7>> field70 71: list<list<double>> field71 72: binary field72 73: map<float, byte> field73 74: string field74 75: i32 field75 76: bool field76 77: byte field77 78: map<i64, i16> field78 79: string field79 80: list<i16> field80 81: byte field81 82: list<i16> field82 83: byte field83 84: i32 field84 85: map<set<i16>, binary> field85 86: map<string, map<bool, i64>> field86 87: double field87 88: list<i16> field88 89: Struct2 field89 90: i16 field90 91: set<byte> field91 92: i64 field92 93: map<list<i64>, byte> field93 94: list<set<byte>> field94 95: byte field95 96: float field96 97: list<Struct1> field97 98: set<bool> field98 99: i32 field99 100: list<map<bool, bool>> field100 101: float field101 102: list<string> field102 103: string field103 104: set<byte> field104 105: Struct2 field105 106: string field106 107: float field107 108: string field108 109: bool field109 110: map<Struct4, string> field110 111: bool field111 112: list<bool> field112 113: Struct4 field113 114: string field114 115: set<i16> field115 116: byte field116 117: i32 field117 118: map<double, byte> field118 119: bool field119 120: string field120 121: list<Struct0> field121 122: set<set<double>> field122 123: Struct5 field123 124: byte field124 125: float field125 126: map<float, float> field126 127: Struct6 field127 128: map<float, binary> field128 129: byte field129 130: byte field130 131: map<Struct0, byte> field131 132: list<double> field132 133: string field133 134: map<i16, binary> field134 135: double field135 136: list<list<i64>> field136 137: list<double> field137 138: set<double> field138 139: set<double> field139 140: i32 field140 141: Struct1 field141 142: Struct2 field142 143: map<i32, binary> field143 144: map<double, i32> field144 145: Struct5 field145 146: list<i16> field146 147: Struct2 field147 148: string field148 149: set<string> field149 150: double field150 151: Struct0 field151 152: i32 field152 153: list<bool> field153 154: binary field154 155: bool field155 156: Struct1 field156 157: float field157 158: string field158 159: byte field159 160: list<i32> field160 161: Struct0 field161 162: i64 field162 163: string field163 164: Struct7 field164 165: double field165 166: i32 field166 167: Struct7 field167 168: Struct0 field168 169: string field169 170: binary field170 171: Struct1 field171 172: float field172 173: double field173 174: set<i64> field174 175: map<float, i16> field175 176: list<map<i64, bool>> field176 177: set<i16> field177 178: Struct1 field178 179: map<i32, Struct1> field179 180: Struct7 field180 181: map<bool, i16> field181 182: float field182 183: list<string> field183 184: i16 field184 185: Struct3 field185 186: set<Struct3> field186 187: bool field187 188: Struct8 field188 189: Struct0 field189 190: float field190 191: list<i32> field191 192: map<list<string>, list<map<double, byte>>> field192 } struct Struct12 { 1: bool field1 2: set<set<double>> field2 3: float field3 4: byte field4 5: byte field5 6: map<double, double> field6 7: byte field7 8: double field8 9: Struct10 field9 10: map<string, binary> field10 11: Struct0 field11 12: byte field12 13: set<map<i16, i64>> field13 14: map<i16, list<i16>> field14 15: float field15 16: byte field16 17: bool field17 18: map<i64, i32> field18 19: map<i64, byte> field19 20: Struct6 field20 21: map<list<i32>, list<float>> field21 22: Struct1 field22 23: i32 field23 24: Struct4 field24 25: list<set<i64>> field25 26: Struct3 field26 27: map<byte, binary> field27 28: Struct1 field28 29: string field29 30: double field30 31: map<string, i16> field31 32: i32 field32 33: binary field33 34: binary field34 35: list<i64> field35 36: string field36 37: binary field37 38: i32 field38 39: byte field39 40: byte field40 41: binary field41 42: byte field42 43: Struct10 field43 44: map<byte, i32> field44 45: byte field45 46: Struct4 field46 47: map<double, list<map<double, float>>> field47 48: list<bool> field48 49: Struct2 field49 50: map<i16, Struct5> field50 51: bool field51 52: Struct0 field52 53: map<i32, i16> field53 54: list<i32> field54 55: i64 field55 56: list<binary> field56 57: bool field57 58: byte field58 59: Struct9 field59 60: i16 field60 61: Struct7 field61 62: set<double> field62 63: set<double> field63 64: list<string> field64 65: string field65 66: list<i16> field66 67: list<byte> field67 68: i64 field68 69: list<byte> field69 70: set<i32> field70 71: Struct9 field71 72: map<list<i16>, list<bool>> field72 73: Struct1 field73 74: Struct1 field74 75: i64 field75 76: set<i32> field76 77: i64 field77 78: byte field78 79: i64 field79 80: double field80 81: i16 field81 82: i64 field82 83: byte field83 84: i32 field84 85: map<i64, binary> field85 86: float field86 87: set<i64> field87 88: string field88 89: map<bool, map<double, byte>> field89 90: binary field90 91: bool field91 92: list<i64> field92 93: set<binary> field93 94: set<map<binary, float>> field94 95: float field95 96: list<float> field96 97: string field97 98: string field98 99: i32 field99 100: double field100 } struct Struct13 { 1: map<double, float> field1 2: list<double> field2 3: set<map<byte, i32>> field3 4: string field4 5: Struct0 field5 6: set<i16> field6 7: map<string, i64> field7 8: list<double> field8 9: double field9 10: map<double, i64> field10 11: binary field11 12: set<i32> field12 13: Struct0 field13 14: double field14 15: set<bool> field15 16: Struct5 field16 17: double field17 18: i16 field18 19: binary field19 20: list<float> field20 21: i64 field21 22: binary field22 23: bool field23 24: float field24 25: i32 field25 26: list<float> field26 27: i32 field27 28: map<list<set<bool>>, bool> field28 29: list<list<i16>> field29 30: bool field30 31: list<list<float>> field31 32: byte field32 33: set<i32> field33 34: float field34 35: byte field35 36: map<list<binary>, map<binary, i64>> field36 37: float field37 38: double field38 39: float field39 40: Struct6 field40 41: set<list<i32>> field41 42: list<bool> field42 43: binary field43 44: list<Struct8> field44 45: float field45 46: list<set<string>> field46 47: set<set<binary>> field47 48: i64 field48 49: byte field49 50: Struct5 field50 51: i64 field51 52: set<bool> field52 53: i16 field53 54: list<binary> field54 55: i64 field55 56: list<Struct0> field56 57: i32 field57 58: Struct2 field58 59: list<binary> field59 60: set<byte> field60 61: list<float> field61 62: list<bool> field62 63: set<i32> field63 64: i32 field64 65: string field65 66: binary field66 67: set<i16> field67 68: binary field68 69: float field69 70: Struct1 field70 71: float field71 72: i32 field72 73: Struct2 field73 74: i64 field74 75: i32 field75 76: map<bool, i64> field76 77: i32 field77 78: list<map<bool, list<float>>> field78 79: list<i32> field79 80: string field80 81: map<Struct8, Struct7> field81 82: bool field82 83: bool field83 84: map<i16, Struct2> field84 85: i16 field85 86: byte field86 87: list<string> field87 88: Struct2 field88 89: float field89 90: float field90 91: list<map<bool, byte>> field91 92: bool field92 93: set<double> field93 94: Struct4 field94 95: bool field95 96: bool field96 97: i16 field97 98: bool field98 99: Struct4 field99 100: set<map<i16, float>> field100 101: binary field101 102: i16 field102 103: map<i16, map<bool, Struct1>> field103 104: i64 field104 105: set<i16> field105 106: double field106 107: set<float> field107 108: set<bool> field108 109: list<map<float, byte>> field109 110: i16 field110 111: Struct1 field111 112: binary field112 113: double field113 114: i16 field114 115: map<list<byte>, i64> field115 116: list<bool> field116 117: binary field117 118: list<binary> field118 119: byte field119 120: double field120 121: i64 field121 122: double field122 123: i32 field123 124: string field124 125: bool field125 126: list<byte> field126 127: string field127 128: string field128 129: Struct4 field129 130: i64 field130 131: string field131 132: Struct2 field132 133: string field133 134: set<map<Struct11, i16>> field134 135: binary field135 136: set<string> field136 137: float field137 138: double field138 139: set<set<double>> field139 140: i64 field140 141: map<bool, float> field141 142: set<list<double>> field142 143: Struct0 field143 144: byte field144 145: set<i64> field145 146: i32 field146 147: double field147 148: Struct4 field148 149: list<byte> field149 150: list<double> field150 151: double field151 152: list<set<i32>> field152 153: string field153 154: set<bool> field154 155: map<i32, set<bool>> field155 156: i64 field156 157: double field157 158: list<list<byte>> field158 159: bool field159 160: double field160 161: double field161 162: set<double> field162 163: binary field163 164: i64 field164 165: binary field165 166: set<float> field166 167: list<i32> field167 168: map<bool, Struct1> field168 169: byte field169 170: binary field170 171: binary field171 172: set<bool> field172 173: bool field173 174: map<i16, list<i64>> field174 175: i32 field175 176: float field176 177: list<float> field177 178: float field178 179: string field179 180: set<set<float>> field180 181: set<list<float>> field181 182: binary field182 183: float field183 184: Struct6 field184 185: set<i64> field185 186: i32 field186 187: double field187 188: list<string> field188 189: float field189 190: double field190 191: Struct0 field191 192: list<byte> field192 193: string field193 194: bool field194 195: list<byte> field195 196: float field196 197: Struct2 field197 198: list<Struct3> field198 199: map<Struct5, binary> field199 200: list<double> field200 201: list<string> field201 202: float field202 203: i16 field203 204: map<i16, set<float>> field204 205: Struct7 field205 206: double field206 207: map<set<byte>, list<float>> field207 208: set<i16> field208 209: set<string> field209 210: Struct7 field210 211: list<float> field211 212: list<byte> field212 213: set<set<set<i64>>> field213 214: list<i32> field214 215: string field215 216: i32 field216 217: set<map<binary, bool>> field217 } struct Struct14 { 1: i64 field1 2: Struct0 field2 3: i16 field3 4: byte field4 5: double field5 6: binary field6 7: set<i16> field7 8: double field8 9: binary field9 10: Struct1 field10 11: float field11 12: i32 field12 13: float field13 14: double field14 15: bool field15 16: i64 field16 17: i16 field17 18: i64 field18 19: string field19 20: bool field20 21: i16 field21 22: float field22 23: map<i64, map<string, float>> field23 24: binary field24 25: Struct1 field25 26: map<i16, double> field26 27: string field27 28: map<map<list<string>, set<binary>>, string> field28 29: float field29 30: string field30 31: double field31 32: list<set<bool>> field32 33: list<i16> field33 34: binary field34 35: Struct0 field35 36: i32 field36 37: Struct1 field37 38: binary field38 39: i32 field39 40: Struct6 field40 41: Struct1 field41 42: map<i64, i16> field42 43: binary field43 44: set<map<map<i64, Struct8>, i32>> field44 45: i32 field45 46: byte field46 47: Struct5 field47 48: set<binary> field48 49: Struct3 field49 50: map<float, Struct3> field50 51: i32 field51 52: list<i16> field52 53: map<string, string> field53 54: map<Struct2, i32> field54 55: Struct2 field55 56: double field56 57: bool field57 58: list<i32> field58 59: Struct5 field59 60: binary field60 61: bool field61 62: i16 field62 63: list<byte> field63 64: string field64 65: Struct1 field65 66: Struct4 field66 67: byte field67 68: i64 field68 69: set<byte> field69 70: list<bool> field70 71: string field71 72: list<i16> field72 73: set<Struct5> field73 74: Struct5 field74 75: map<i16, byte> field75 76: bool field76 77: set<byte> field77 78: byte field78 79: binary field79 80: double field80 81: bool field81 82: i64 field82 83: set<string> field83 84: Struct5 field84 85: bool field85 86: float field86 87: set<double> field87 88: map<double, float> field88 89: map<set<binary>, binary> field89 90: i64 field90 91: i16 field91 92: map<set<double>, byte> field92 93: bool field93 94: i64 field94 95: list<i64> field95 96: map<Struct6, i64> field96 97: string field97 98: Struct0 field98 99: set<float> field99 100: i64 field100 101: list<bool> field101 102: list<byte> field102 103: i64 field103 104: map<byte, set<float>> field104 105: Struct6 field105 106: byte field106 107: set<float> field107 108: float field108 109: binary field109 110: list<byte> field110 111: set<map<float, i16>> field111 112: list<float> field112 113: list<byte> field113 114: Struct4 field114 115: bool field115 116: i16 field116 117: map<float, float> field117 118: set<byte> field118 119: set<binary> field119 120: set<byte> field120 121: map<Struct0, i32> field121 122: set<byte> field122 123: Struct10 field123 124: float field124 125: string field125 126: bool field126 127: list<map<string, bool>> field127 128: list<double> field128 129: list<byte> field129 130: byte field130 131: string field131 132: map<Struct2, float> field132 133: list<double> field133 134: i64 field134 135: string field135 136: float field136 137: set<bool> field137 138: map<bool, i32> field138 139: double field139 140: string field140 141: binary field141 142: byte field142 143: set<binary> field143 144: map<float, i64> field144 145: i32 field145 146: i16 field146 147: set<list<i32>> field147 148: map<float, list<i32>> field148 149: Struct7 field149 150: byte field150 151: bool field151 152: map<i16, i32> field152 153: byte field153 154: string field154 155: string field155 156: Struct2 field156 157: list<binary> field157 158: Struct6 field158 159: bool field159 160: list<i16> field160 161: list<i64> field161 162: i64 field162 163: binary field163 164: binary field164 165: i64 field165 166: list<binary> field166 167: Struct5 field167 168: map<Struct3, i64> field168 169: map<binary, bool> field169 170: list<double> field170 171: set<i16> field171 172: list<string> field172 173: i32 field173 174: set<i32> field174 175: map<byte, string> field175 176: list<string> field176 177: Struct4 field177 178: Struct10 field178 179: set<i64> field179 180: list<binary> field180 181: byte field181 182: Struct5 field182 183: byte field183 184: binary field184 185: double field185 186: set<float> field186 187: i32 field187 188: Struct0 field188 189: i16 field189 190: float field190 191: Struct2 field191 192: map<list<i16>, byte> field192 193: string field193 194: string field194 195: Struct2 field195 196: map<bool, Struct3> field196 197: bool field197 } struct Struct15 { 1: Struct6 field1 2: set<i64> field2 3: i32 field3 4: i32 field4 5: binary field5 6: set<byte> field6 7: i16 field7 8: bool field8 9: list<map<set<byte>, i32>> field9 10: i32 field10 11: list<byte> field11 12: bool field12 13: float field13 14: set<list<i16>> field14 15: map<i64, map<set<string>, float>> field15 16: set<i32> field16 17: map<bool, map<i64, float>> field17 18: set<float> field18 19: Struct3 field19 20: set<i16> field20 21: string field21 22: string field22 23: i64 field23 24: binary field24 25: i16 field25 26: list<map<set<i32>, binary>> field26 27: set<map<byte, i64>> field27 28: double field28 29: Struct2 field29 30: Struct3 field30 31: i32 field31 32: float field32 33: i16 field33 34: map<binary, list<i32>> field34 35: i64 field35 36: bool field36 37: list<double> field37 38: double field38 39: float field39 40: string field40 41: double field41 42: Struct5 field42 43: string field43 44: byte field44 45: set<string> field45 46: list<Struct0> field46 47: byte field47 48: i16 field48 49: byte field49 50: list<string> field50 51: set<set<string>> field51 52: bool field52 53: binary field53 54: Struct4 field54 55: binary field55 56: double field56 57: map<i32, float> field57 58: i16 field58 59: list<i32> field59 60: Struct9 field60 61: i16 field61 62: i32 field62 63: list<binary> field63 64: map<map<byte, i32>, i16> field64 65: Struct9 field65 66: Struct8 field66 67: string field67 68: bool field68 69: bool field69 } struct Struct16 { 1: Struct10 field1 2: map<list<i32>, bool> field2 3: Struct7 field3 4: list<i32> field4 5: i16 field5 6: list<double> field6 7: byte field7 8: i16 field8 9: set<map<i32, i64>> field9 10: byte field10 11: string field11 12: i64 field12 13: i32 field13 14: string field14 15: map<set<bool>, float> field15 16: byte field16 17: float field17 18: i32 field18 19: list<string> field19 20: i16 field20 21: list<float> field21 22: Struct6 field22 23: i16 field23 24: bool field24 25: Struct5 field25 26: set<set<bool>> field26 27: i32 field27 } struct Struct17 { 1: byte field1 2: list<string> field2 3: binary field3 4: i64 field4 5: i16 field5 6: bool field6 7: map<bool, i32> field7 8: byte field8 9: Struct3 field9 10: map<bool, bool> field10 11: map<Struct3, string> field11 12: set<float> field12 13: double field13 14: map<i16, i64> field14 15: string field15 16: bool field16 17: map<list<bool>, Struct5> field17 18: set<byte> field18 19: double field19 20: map<double, byte> field20 21: i32 field21 22: string field22 23: list<i32> field23 24: list<list<byte>> field24 25: i32 field25 26: bool field26 27: set<float> field27 28: i64 field28 29: list<float> field29 30: list<i16> field30 31: float field31 32: i16 field32 33: Struct11 field33 34: set<double> field34 35: Struct3 field35 36: i64 field36 37: double field37 38: float field38 39: i64 field39 40: list<i16> field40 41: string field41 42: set<double> field42 43: i16 field43 44: Struct1 field44 45: i16 field45 46: i16 field46 47: string field47 48: float field48 49: i64 field49 50: i64 field50 51: double field51 52: set<Struct10> field52 53: set<i32> field53 54: bool field54 55: i64 field55 56: Struct12 field56 57: set<map<float, binary>> field57 58: map<bool, set<string>> field58 59: i32 field59 60: bool field60 61: Struct10 field61 62: i16 field62 63: i32 field63 64: binary field64 65: set<string> field65 66: i32 field66 67: map<i16, binary> field67 68: map<map<list<i16>, binary>, list<byte>> field68 69: string field69 70: float field70 71: float field71 72: i16 field72 73: double field73 74: string field74 75: set<i16> field75 76: i64 field76 77: map<string, set<float>> field77 78: list<float> field78 79: Struct5 field79 80: i64 field80 81: map<Struct0, binary> field81 82: Struct3 field82 83: Struct11 field83 84: map<double, i16> field84 85: i64 field85 86: Struct5 field86 87: set<list<i32>> field87 88: list<set<i64>> field88 89: double field89 90: list<i64> field90 91: map<byte, bool> field91 92: double field92 93: map<i16, i32> field93 94: Struct2 field94 95: string field95 96: byte field96 97: Struct2 field97 98: double field98 99: i64 field99 100: Struct3 field100 101: list<Struct9> field101 102: Struct6 field102 103: byte field103 104: map<byte, i16> field104 105: i32 field105 106: byte field106 107: map<double, list<map<float, byte>>> field107 108: double field108 109: Struct6 field109 110: double field110 111: i16 field111 112: i32 field112 113: i32 field113 114: i64 field114 115: byte field115 116: binary field116 117: set<map<map<binary, binary>, i64>> field117 118: map<i64, string> field118 119: bool field119 120: binary field120 121: float field121 122: i32 field122 123: i32 field123 124: set<set<double>> field124 125: byte field125 126: list<string> field126 127: i16 field127 128: map<i32, double> field128 } struct Struct18 { 1: Struct0 field1 2: Struct10 field2 3: i64 field3 4: map<Struct3, Struct0> field4 5: i16 field5 6: list<float> field6 7: list<bool> field7 8: i32 field8 9: i16 field9 10: Struct0 field10 11: float field11 12: byte field12 13: set<i16> field13 14: i64 field14 15: i16 field15 16: i16 field16 17: map<bool, string> field17 18: i32 field18 19: i32 field19 20: binary field20 21: set<float> field21 22: i16 field22 23: string field23 24: i32 field24 25: Struct0 field25 26: map<byte, i16> field26 27: binary field27 28: binary field28 29: i32 field29 30: string field30 31: i64 field31 32: map<i32, bool> field32 33: byte field33 34: string field34 35: i64 field35 36: i64 field36 37: Struct2 field37 38: list<bool> field38 39: binary field39 40: map<list<map<byte, i64>>, string> field40 41: bool field41 42: Struct6 field42 43: string field43 44: map<binary, list<list<string>>> field44 45: i64 field45 46: map<i16, i32> field46 47: set<binary> field47 48: set<float> field48 49: Struct0 field49 50: list<Struct3> field50 51: map<i64, list<string>> field51 52: i64 field52 53: bool field53 54: set<binary> field54 55: string field55 56: set<float> field56 57: string field57 58: double field58 59: bool field59 60: set<Struct1> field60 61: set<byte> field61 62: set<i16> field62 63: set<string> field63 64: Struct8 field64 65: Struct8 field65 66: i16 field66 67: double field67 68: map<list<byte>, set<float>> field68 69: list<i64> field69 70: i64 field70 71: list<map<i16, string>> field71 72: list<map<string, byte>> field72 73: byte field73 74: list<set<string>> field74 75: list<list<double>> field75 76: map<double, list<i64>> field76 77: i32 field77 78: string field78 79: bool field79 80: set<set<i64>> field80 81: double field81 82: float field82 83: Struct9 field83 84: Struct9 field84 85: i64 field85 86: binary field86 87: i32 field87 88: float field88 89: map<byte, byte> field89 90: map<i16, list<float>> field90 91: i16 field91 92: i64 field92 93: i64 field93 94: map<float, Struct5> field94 95: list<binary> field95 96: float field96 97: Struct8 field97 98: map<byte, string> field98 99: i16 field99 100: map<byte, string> field100 101: map<bool, i64> field101 102: i16 field102 103: byte field103 104: set<i16> field104 105: string field105 106: set<string> field106 107: binary field107 108: Struct8 field108 109: byte field109 110: set<binary> field110 111: Struct2 field111 112: string field112 113: set<map<binary, i32>> field113 114: i64 field114 115: Struct3 field115 116: set<i16> field116 117: float field117 118: list<map<byte, double>> field118 119: string field119 120: binary field120 121: i64 field121 122: set<list<map<float, double>>> field122 123: list<map<string, byte>> field123 124: set<byte> field124 125: i16 field125 126: map<string, i32> field126 127: byte field127 128: i32 field128 129: Struct11 field129 130: double field130 131: byte field131 132: Struct7 field132 133: i32 field133 134: double field134 135: byte field135 136: double field136 137: binary field137 138: i64 field138 139: binary field139 140: i64 field140 141: float field141 142: bool field142 143: i16 field143 144: map<Struct4, i64> field144 145: list<float> field145 146: i16 field146 147: Struct9 field147 148: map<Struct0, double> field148 149: float field149 150: bool field150 151: set<byte> field151 152: map<i64, list<i64>> field152 153: bool field153 154: byte field154 155: i32 field155 156: i16 field156 157: string field157 158: binary field158 159: i64 field159 160: map<double, byte> field160 161: string field161 162: Struct2 field162 163: bool field163 164: i64 field164 165: bool field165 166: set<Struct6> field166 167: map<i16, set<float>> field167 168: list<string> field168 169: set<string> field169 170: set<byte> field170 171: list<bool> field171 172: Struct0 field172 173: list<binary> field173 174: map<i32, Struct8> field174 175: Struct3 field175 176: set<float> field176 177: i32 field177 178: byte field178 179: i16 field179 180: set<binary> field180 181: string field181 182: float field182 183: list<i64> field183 184: byte field184 185: set<string> field185 186: bool field186 187: set<binary> field187 188: Struct4 field188 189: bool field189 190: Struct7 field190 191: binary field191 192: float field192 193: i32 field193 194: float field194 195: set<i32> field195 196: double field196 197: Struct4 field197 198: i32 field198 199: Struct14 field199 200: list<float> field200 201: list<i64> field201 202: map<bool, i32> field202 203: string field203 204: map<i64, i32> field204 205: map<string, list<i32>> field205 206: byte field206 207: set<binary> field207 208: Struct8 field208 209: binary field209 210: map<binary, bool> field210 211: map<bool, i16> field211 212: binary field212 213: byte field213 214: Struct5 field214 215: i64 field215 216: i16 field216 217: string field217 218: float field218 219: list<float> field219 220: Struct13 field220 221: binary field221 222: Struct8 field222 223: set<i16> field223 224: i16 field224 225: list<float> field225 226: list<i16> field226 227: list<map<i64, i16>> field227 228: i64 field228 229: Struct2 field229 230: binary field230 } struct Struct19 { 1: bool field1 2: map<binary, i16> field2 3: set<i64> field3 4: i64 field4 5: bool field5 6: map<double, bool> field6 7: map<string, set<i16>> field7 8: Struct0 field8 9: float field9 10: list<set<list<i32>>> field10 11: bool field11 12: map<i32, bool> field12 13: bool field13 14: byte field14 15: Struct7 field15 16: list<i16> field16 17: map<list<list<binary>>, byte> field17 18: set<binary> field18 19: set<double> field19 20: binary field20 21: list<i16> field21 22: set<set<double>> field22 23: string field23 24: string field24 25: double field25 26: bool field26 27: string field27 28: string field28 29: bool field29 30: binary field30 31: double field31 32: byte field32 33: list<bool> field33 34: set<list<string>> field34 35: i16 field35 36: map<float, byte> field36 37: map<string, i32> field37 38: i16 field38 39: set<i16> field39 40: string field40 41: list<list<i32>> field41 42: bool field42 43: set<i32> field43 44: string field44 45: set<float> field45 46: i32 field46 47: string field47 48: bool field48 49: bool field49 50: list<binary> field50 51: binary field51 52: i64 field52 53: bool field53 54: bool field54 55: byte field55 56: set<bool> field56 57: byte field57 58: set<list<bool>> field58 59: list<list<bool>> field59 60: set<i16> field60 61: set<binary> field61 62: bool field62 63: double field63 64: map<byte, string> field64 65: i64 field65 66: float field66 67: Struct3 field67 68: i64 field68 69: i16 field69 70: double field70 71: Struct8 field71 72: i32 field72 73: set<string> field73 74: set<binary> field74 75: set<float> field75 76: map<list<double>, Struct2> field76 77: string field77 78: byte field78 79: list<binary> field79 80: string field80 81: double field81 82: string field82 83: Struct8 field83 84: i16 field84 } struct Struct20 { 1: Struct0 field1 2: set<Struct13> field2 3: float field3 4: byte field4 5: i32 field5 6: string field6 7: i32 field7 8: list<map<float, i16>> field8 9: Struct7 field9 10: bool field10 11: byte field11 12: set<Struct6> field12 13: map<list<bool>, list<bool>> field13 14: bool field14 15: bool field15 16: i16 field16 17: set<Struct3> field17 18: i64 field18 19: double field19 20: set<list<i32>> field20 21: map<byte, byte> field21 22: double field22 23: binary field23 24: Struct14 field24 25: string field25 26: set<byte> field26 27: Struct9 field27 28: byte field28 29: map<i16, i64> field29 30: set<set<list<byte>>> field30 31: Struct11 field31 32: list<string> field32 33: map<i16, double> field33 34: i32 field34 35: float field35 36: list<i64> field36 37: set<bool> field37 38: binary field38 39: list<double> field39 40: set<map<bool, set<string>>> field40 41: Struct13 field41 42: list<binary> field42 43: list<list<bool>> field43 44: i32 field44 45: i64 field45 46: double field46 47: i64 field47 48: i16 field48 49: Struct7 field49 50: double field50 51: Struct0 field51 52: set<binary> field52 53: string field53 54: float field54 55: float field55 56: i32 field56 57: set<i64> field57 58: byte field58 59: i32 field59 60: Struct5 field60 61: Struct3 field61 62: set<i32> field62 63: float field63 64: list<Struct8> field64 65: i32 field65 66: binary field66 67: double field67 68: map<float, binary> field68 69: list<list<i64>> field69 70: Struct3 field70 71: Struct12 field71 72: double field72 73: string field73 74: set<list<float>> field74 75: set<float> field75 76: list<bool> field76 77: set<string> field77 78: Struct8 field78 79: map<list<i16>, Struct6> field79 80: set<binary> field80 81: set<double> field81 82: i64 field82 } struct Struct21 { 1: list<byte> field1 2: Struct1 field2 3: string field3 4: byte field4 5: float field5 6: double field6 7: map<i16, list<float>> field7 8: float field8 9: Struct12 field9 10: float field10 11: binary field11 12: byte field12 13: list<bool> field13 14: double field14 15: i32 field15 16: i16 field16 17: Struct2 field17 18: double field18 19: i16 field19 20: i16 field20 21: map<Struct10, list<double>> field21 22: set<i32> field22 23: list<bool> field23 24: set<float> field24 25: float field25 26: Struct1 field26 27: map<string, bool> field27 28: i64 field28 29: float field29 30: list<i16> field30 31: byte field31 32: list<i32> field32 33: set<list<i16>> field33 34: Struct16 field34 35: map<i16, binary> field35 36: map<bool, list<Struct5>> field36 37: i16 field37 38: map<float, i16> field38 39: set<i64> field39 40: bool field40 41: binary field41 42: i16 field42 43: Struct9 field43 44: set<binary> field44 45: map<i32, Struct3> field45 46: set<i64> field46 47: Struct2 field47 48: i32 field48 49: byte field49 50: bool field50 51: list<Struct10> field51 52: float field52 53: set<binary> field53 54: string field54 55: Struct11 field55 56: list<bool> field56 57: map<string, list<binary>> field57 58: i64 field58 59: byte field59 60: Struct11 field60 61: set<i64> field61 62: i16 field62 63: bool field63 64: bool field64 65: i32 field65 66: string field66 67: i32 field67 68: set<byte> field68 69: i32 field69 70: set<set<float>> field70 71: i16 field71 72: list<string> field72 73: map<Struct1, list<i16>> field73 74: Struct3 field74 75: string field75 76: list<list<double>> field76 77: list<bool> field77 78: set<Struct14> field78 79: binary field79 80: i32 field80 81: i16 field81 82: bool field82 83: map<Struct2, double> field83 84: list<map<Struct2, bool>> field84 85: map<bool, list<binary>> field85 86: Struct6 field86 87: string field87 88: float field88 89: list<bool> field89 90: i64 field90 91: bool field91 92: map<bool, list<double>> field92 93: float field93 94: byte field94 95: string field95 96: Struct4 field96 97: string field97 98: i16 field98 99: set<binary> field99 100: map<double, i64> field100 101: i16 field101 102: set<binary> field102 103: binary field103 104: i16 field104 105: map<byte, string> field105 106: binary field106 107: set<string> field107 108: Struct8 field108 109: i16 field109 110: binary field110 111: i32 field111 112: set<double> field112 113: list<i16> field113 114: i16 field114 115: byte field115 116: i64 field116 117: map<i32, i16> field117 118: i64 field118 119: list<double> field119 120: i64 field120 121: string field121 122: i64 field122 123: map<binary, map<byte, double>> field123 124: string field124 125: bool field125 126: byte field126 127: i16 field127 128: string field128 129: map<string, set<i32>> field129 130: map<i64, binary> field130 131: map<Struct18, set<byte>> field131 132: byte field132 133: double field133 134: map<i64, byte> field134 135: i32 field135 136: map<i32, binary> field136 137: list<string> field137 138: map<string, i16> field138 139: Struct5 field139 140: i32 field140 141: string field141 142: byte field142 143: i32 field143 144: set<double> field144 145: list<byte> field145 146: i64 field146 147: set<double> field147 148: string field148 149: i16 field149 150: set<map<i16, float>> field150 151: Struct14 field151 152: Struct3 field152 153: set<binary> field153 154: list<byte> field154 155: byte field155 156: byte field156 157: float field157 158: Struct2 field158 159: i32 field159 160: double field160 161: bool field161 162: list<binary> field162 163: map<Struct7, map<i64, Struct4>> field163 164: set<double> field164 165: list<i64> field165 166: set<byte> field166 167: Struct4 field167 168: binary field168 169: i16 field169 170: binary field170 171: map<i16, i16> field171 172: set<i32> field172 173: set<Struct5> field173 174: binary field174 } struct Struct22 { 1: double field1 2: i32 field2 3: Struct9 field3 4: map<float, list<bool>> field4 5: map<binary, bool> field5 6: bool field6 7: float field7 8: set<byte> field8 9: string field9 10: map<Struct3, bool> field10 11: float field11 12: float field12 13: list<list<float>> field13 14: float field14 15: list<binary> field15 16: byte field16 17: Struct9 field17 18: map<i64, byte> field18 19: i32 field19 20: double field20 21: float field21 22: byte field22 23: byte field23 24: Struct12 field24 25: float field25 26: string field26 27: i16 field27 28: list<list<string>> field28 29: list<i16> field29 30: byte field30 31: set<double> field31 32: Struct0 field32 33: byte field33 34: map<string, string> field34 35: list<double> field35 36: list<i32> field36 37: list<Struct2> field37 38: binary field38 39: set<i32> field39 40: bool field40 41: map<i64, float> field41 42: string field42 43: i16 field43 44: map<i16, float> field44 45: bool field45 46: i16 field46 47: binary field47 48: Struct9 field48 49: map<double, list<string>> field49 50: float field50 51: set<bool> field51 52: map<float, float> field52 53: i16 field53 54: i64 field54 55: byte field55 56: Struct9 field56 57: double field57 58: list<string> field58 59: i32 field59 60: binary field60 61: binary field61 62: double field62 63: set<i16> field63 64: bool field64 65: float field65 66: map<byte, binary> field66 67: i64 field67 68: i16 field68 69: byte field69 70: map<i32, byte> field70 71: i64 field71 72: float field72 73: binary field73 74: byte field74 75: list<bool> field75 76: Struct15 field76 77: map<double, map<float, list<i32>>> field77 78: list<string> field78 79: Struct7 field79 80: i16 field80 81: i64 field81 82: double field82 83: list<double> field83 84: set<double> field84 85: i64 field85 86: Struct3 field86 87: Struct15 field87 88: byte field88 89: list<list<byte>> field89 90: binary field90 91: i16 field91 92: set<list<i16>> field92 93: i64 field93 94: binary field94 95: map<float, set<i64>> field95 } struct Struct23 { 1: i16 field1 2: Struct15 field2 3: Struct15 field3 4: string field4 5: string field5 6: i64 field6 7: Struct6 field7 8: list<string> field8 9: map<set<i16>, string> field9 10: byte field10 11: i64 field11 12: i64 field12 13: string field13 14: Struct6 field14 15: list<set<string>> field15 16: Struct1 field16 17: string field17 18: map<byte, i64> field18 19: byte field19 20: list<map<byte, bool>> field20 21: set<string> field21 22: i64 field22 23: list<byte> field23 24: map<map<double, float>, float> field24 25: byte field25 26: set<string> field26 27: map<Struct1, i64> field27 28: list<string> field28 29: i64 field29 30: bool field30 31: bool field31 32: i32 field32 33: set<string> field33 34: Struct1 field34 35: map<i32, i16> field35 36: float field36 37: list<double> field37 38: list<i32> field38 39: Struct4 field39 40: Struct9 field40 41: i64 field41 } struct Struct24 { 1: set<binary> field1 2: Struct4 field2 3: bool field3 4: i64 field4 5: i16 field5 6: list<string> field6 7: double field7 8: string field8 9: i16 field9 10: float field10 11: binary field11 12: set<byte> field12 13: set<i32> field13 14: map<i64, i64> field14 15: set<i32> field15 16: i16 field16 17: map<map<double, byte>, i16> field17 18: set<bool> field18 19: map<string, map<double, i16>> field19 20: map<float, double> field20 21: Struct7 field21 22: set<float> field22 23: bool field23 24: i16 field24 25: list<list<bool>> field25 26: string field26 27: i32 field27 28: map<set<bool>, bool> field28 29: i16 field29 30: byte field30 31: bool field31 32: list<i32> field32 33: set<i64> field33 34: Struct4 field34 35: Struct0 field35 36: Struct9 field36 37: Struct9 field37 38: Struct1 field38 39: bool field39 40: list<bool> field40 41: double field41 42: Struct3 field42 43: Struct8 field43 44: string field44 45: byte field45 46: i64 field46 47: i32 field47 48: set<Struct18> field48 49: float field49 50: byte field50 51: Struct5 field51 52: set<list<i64>> field52 53: string field53 54: byte field54 55: map<byte, bool> field55 56: list<list<double>> field56 } struct Struct25 { 1: bool field1 2: map<byte, i64> field2 3: set<byte> field3 4: map<string, Struct6> field4 5: set<byte> field5 6: i32 field6 7: binary field7 8: string field8 9: i16 field9 10: double field10 11: map<string, Struct15> field11 12: map<binary, Struct20> field12 13: float field13 14: set<i16> field14 15: set<float> field15 16: binary field16 17: map<list<list<binary>>, i16> field17 18: bool field18 19: i64 field19 20: list<list<bool>> field20 21: i16 field21 22: set<list<i32>> field22 23: set<bool> field23 24: map<set<i64>, i16> field24 25: i64 field25 26: i16 field26 27: set<Struct12> field27 28: i64 field28 29: byte field29 30: set<binary> field30 31: Struct3 field31 32: Struct10 field32 33: byte field33 34: map<set<string>, byte> field34 35: Struct1 field35 36: binary field36 37: set<string> field37 38: list<Struct3> field38 39: set<string> field39 40: i32 field40 41: float field41 42: map<i16, map<list<double>, double>> field42 43: list<double> field43 44: string field44 45: set<Struct9> field45 46: i64 field46 47: Struct10 field47 48: double field48 49: bool field49 50: map<i32, binary> field50 51: Struct10 field51 52: byte field52 53: list<list<double>> field53 54: list<double> field54 55: map<double, float> field55 56: float field56 57: map<Struct4, byte> field57 58: double field58 59: list<map<list<bool>, i64>> field59 60: byte field60 61: bool field61 62: bool field62 63: bool field63 64: map<binary, list<double>> field64 65: list<double> field65 66: double field66 67: set<map<float, float>> field67 68: binary field68 69: list<string> field69 70: Struct15 field70 71: byte field71 72: set<i16> field72 73: list<float> field73 74: map<map<string, i16>, double> field74 75: i32 field75 76: double field76 77: i16 field77 78: string field78 79: set<byte> field79 } struct Struct26 { 1: set<double> field1 2: double field2 3: map<byte, float> field3 4: byte field4 5: map<set<double>, i16> field5 6: set<i16> field6 7: i16 field7 8: string field8 9: i16 field9 10: map<double, map<map<double, i32>, bool>> field10 11: set<set<i32>> field11 12: list<binary> field12 13: i32 field13 14: Struct10 field14 15: bool field15 16: binary field16 17: set<byte> field17 18: i16 field18 19: set<double> field19 20: float field20 21: i16 field21 22: i16 field22 23: i16 field23 24: byte field24 25: i16 field25 26: double field26 27: set<binary> field27 28: list<double> field28 29: double field29 30: list<i16> field30 31: byte field31 32: Struct17 field32 33: list<i16> field33 34: i32 field34 35: bool field35 36: byte field36 37: set<byte> field37 38: bool field38 39: float field39 40: map<float, bool> field40 41: byte field41 42: Struct14 field42 43: map<i32, bool> field43 44: double field44 45: Struct7 field45 46: set<i16> field46 47: map<binary, map<string, bool>> field47 48: byte field48 49: i64 field49 50: binary field50 51: Struct10 field51 52: binary field52 53: Struct5 field53 54: double field54 55: Struct0 field55 56: double field56 57: set<double> field57 58: binary field58 59: Struct4 field59 60: double field60 61: list<set<float>> field61 62: i16 field62 63: set<map<byte, i32>> field63 64: list<i64> field64 65: set<list<double>> field65 66: float field66 67: set<binary> field67 68: binary field68 69: i32 field69 70: map<byte, map<float, string>> field70 71: i32 field71 72: set<byte> field72 73: string field73 74: i32 field74 75: map<bool, map<list<string>, i64>> field75 76: float field76 77: bool field77 78: Struct9 field78 79: i16 field79 80: set<i64> field80 81: double field81 82: byte field82 83: float field83 84: list<Struct15> field84 85: Struct2 field85 86: Struct9 field86 87: list<string> field87 88: string field88 89: map<byte, string> field89 90: Struct19 field90 91: double field91 92: byte field92 93: i64 field93 94: float field94 95: byte field95 96: Struct5 field96 97: i32 field97 98: Struct6 field98 99: set<bool> field99 100: byte field100 101: string field101 102: map<i64, i64> field102 103: binary field103 104: float field104 105: string field105 } struct Struct27 { 1: Struct8 field1 2: float field2 3: set<double> field3 4: binary field4 5: map<byte, binary> field5 6: list<double> field6 7: i64 field7 8: set<double> field8 9: set<Struct1> field9 10: set<binary> field10 11: i64 field11 12: set<set<float>> field12 13: map<bool, binary> field13 14: bool field14 15: float field15 16: bool field16 17: Struct3 field17 18: Struct6 field18 19: set<bool> field19 20: i16 field20 21: set<i64> field21 22: string field22 23: byte field23 24: map<i16, float> field24 25: Struct0 field25 26: map<string, map<string, map<i32, float>>> field26 27: set<i64> field27 28: float field28 29: list<i32> field29 30: i32 field30 31: list<bool> field31 32: i64 field32 33: Struct9 field33 34: set<byte> field34 35: Struct15 field35 36: byte field36 37: i64 field37 38: bool field38 39: map<map<list<float>, byte>, i32> field39 40: list<string> field40 41: Struct4 field41 42: double field42 43: Struct7 field43 44: string field44 45: i16 field45 46: i32 field46 47: map<double, binary> field47 48: byte field48 49: Struct5 field49 50: Struct19 field50 51: binary field51 52: Struct16 field52 53: set<string> field53 54: set<list<string>> field54 55: double field55 56: bool field56 57: list<i32> field57 58: set<string> field58 59: map<map<map<i32, i64>, binary>, float> field59 60: Struct2 field60 61: float field61 62: Struct16 field62 63: set<i16> field63 64: i64 field64 65: i32 field65 66: list<bool> field66 67: bool field67 68: bool field68 69: Struct6 field69 70: byte field70 71: i32 field71 72: Struct6 field72 73: i16 field73 74: double field74 75: i64 field75 76: list<byte> field76 77: list<bool> field77 78: list<string> field78 79: byte field79 80: Struct4 field80 81: byte field81 82: string field82 83: list<map<map<float, bool>, byte>> field83 84: float field84 85: binary field85 86: i32 field86 87: i16 field87 88: set<i64> field88 89: bool field89 90: bool field90 91: list<list<list<i64>>> field91 92: binary field92 93: set<set<i64>> field93 94: double field94 95: string field95 96: bool field96 97: string field97 98: binary field98 99: binary field99 100: Struct13 field100 101: bool field101 102: float field102 103: i16 field103 104: i32 field104 105: i32 field105 106: set<double> field106 107: Struct9 field107 108: map<i64, list<bool>> field108 109: bool field109 110: i16 field110 111: list<byte> field111 112: float field112 113: i32 field113 114: Struct4 field114 115: Struct2 field115 116: i64 field116 117: set<binary> field117 118: byte field118 119: list<double> field119 120: Struct8 field120 121: Struct14 field121 122: i64 field122 123: map<i32, string> field123 124: i64 field124 125: binary field125 126: list<bool> field126 127: float field127 128: set<float> field128 129: i16 field129 130: set<bool> field130 131: list<i16> field131 132: map<set<binary>, float> field132 133: list<map<list<list<float>>, i32>> field133 134: list<i64> field134 135: map<Struct13, double> field135 136: float field136 137: map<byte, float> field137 138: map<double, Struct7> field138 139: list<set<binary>> field139 140: map<set<double>, string> field140 141: Struct12 field141 142: i16 field142 143: string field143 144: set<double> field144 145: double field145 146: Struct17 field146 147: binary field147 148: float field148 149: float field149 150: set<bool> field150 151: Struct18 field151 152: byte field152 153: binary field153 154: double field154 155: list<string> field155 156: Struct3 field156 157: i32 field157 158: map<i16, i16> field158 159: Struct8 field159 160: string field160 161: byte field161 162: i32 field162 163: set<double> field163 164: list<map<i64, i32>> field164 165: list<i64> field165 166: string field166 167: double field167 168: map<binary, string> field168 169: map<byte, byte> field169 170: double field170 171: map<binary, binary> field171 172: map<Struct3, float> field172 173: string field173 174: i16 field174 175: i64 field175 176: string field176 177: map<float, i16> field177 178: Struct0 field178 179: map<i64, set<i64>> field179 180: map<double, string> field180 181: i32 field181 182: Struct21 field182 183: binary field183 184: set<binary> field184 185: byte field185 186: float field186 187: i16 field187 188: set<set<double>> field188 189: string field189 190: set<double> field190 191: set<bool> field191 192: float field192 193: string field193 194: float field194 195: map<i64, byte> field195 196: Struct5 field196 197: bool field197 198: map<double, i32> field198 199: set<i16> field199 200: Struct18 field200 201: i32 field201 202: byte field202 203: Struct16 field203 204: map<list<bool>, string> field204 205: i32 field205 206: list<byte> field206 207: bool field207 208: map<byte, i32> field208 209: float field209 210: list<i32> field210 211: float field211 212: binary field212 213: set<float> field213 214: list<string> field214 215: map<binary, Struct5> field215 216: i64 field216 217: map<i64, double> field217 218: i64 field218 219: string field219 220: set<byte> field220 221: map<list<list<binary>>, list<float>> field221 222: double field222 223: list<byte> field223 224: set<string> field224 225: map<float, bool> field225 226: i64 field226 227: string field227 228: list<double> field228 229: i64 field229 230: byte field230 } struct Struct28 { 1: set<string> field1 2: set<Struct7> field2 3: list<Struct11> field3 4: i64 field4 5: Struct3 field5 6: binary field6 7: list<set<binary>> field7 8: byte field8 9: binary field9 10: i64 field10 11: map<set<Struct14>, i16> field11 12: i64 field12 13: list<byte> field13 14: list<float> field14 15: list<i32> field15 16: bool field16 17: i32 field17 18: float field18 19: i16 field19 20: i16 field20 21: set<i16> field21 22: Struct21 field22 23: set<i32> field23 24: Struct3 field24 25: i64 field25 26: binary field26 27: list<i64> field27 28: Struct0 field28 29: Struct2 field29 30: list<i16> field30 31: byte field31 32: i64 field32 33: i32 field33 34: i64 field34 35: Struct1 field35 36: double field36 37: Struct11 field37 38: double field38 39: set<i16> field39 40: Struct6 field40 41: i32 field41 42: i64 field42 43: float field43 44: Struct10 field44 45: list<double> field45 46: double field46 47: Struct11 field47 48: float field48 49: map<i64, i32> field49 50: Struct6 field50 51: binary field51 52: bool field52 53: byte field53 54: i16 field54 55: list<double> field55 56: Struct23 field56 57: set<i64> field57 58: float field58 59: map<list<float>, i32> field59 60: bool field60 61: binary field61 62: list<i64> field62 63: byte field63 64: i32 field64 65: byte field65 66: float field66 67: byte field67 68: i64 field68 69: map<bool, byte> field69 70: set<i64> field70 71: double field71 72: set<double> field72 73: map<byte, map<list<double>, i16>> field73 74: byte field74 75: map<Struct13, bool> field75 76: list<list<i32>> field76 77: binary field77 78: map<bool, set<set<i16>>> field78 79: map<bool, binary> field79 80: set<i16> field80 81: binary field81 82: list<list<binary>> field82 83: binary field83 84: list<i64> field84 85: i16 field85 86: binary field86 87: i64 field87 88: set<map<binary, bool>> field88 89: string field89 90: float field90 91: byte field91 92: string field92 93: map<Struct20, i32> field93 94: float field94 95: string field95 96: byte field96 97: bool field97 98: double field98 99: set<Struct12> field99 100: map<set<set<binary>>, float> field100 101: binary field101 102: byte field102 103: string field103 104: Struct13 field104 105: string field105 106: Struct5 field106 107: map<i32, map<i16, double>> field107 108: string field108 109: i32 field109 110: Struct7 field110 111: Struct9 field111 112: Struct12 field112 113: set<i16> field113 114: float field114 115: float field115 116: Struct12 field116 117: set<set<byte>> field117 118: Struct1 field118 119: bool field119 120: binary field120 121: Struct12 field121 122: Struct3 field122 123: set<i32> field123 124: binary field124 125: double field125 126: double field126 127: map<list<i64>, bool> field127 128: Struct25 field128 129: Struct4 field129 130: string field130 131: bool field131 132: set<binary> field132 133: i32 field133 134: map<string, map<i64, i16>> field134 135: list<binary> field135 136: double field136 137: byte field137 138: byte field138 139: set<i16> field139 140: byte field140 141: map<byte, byte> field141 142: bool field142 143: bool field143 144: string field144 145: i32 field145 146: set<Struct18> field146 147: i16 field147 148: bool field148 149: i32 field149 150: map<byte, string> field150 151: map<binary, bool> field151 152: float field152 153: set<i64> field153 154: double field154 155: list<binary> field155 }
KERNAL_PRINTCHR EQU $e716 KERNAL_GETIN EQU $ffe4 INPUT_MAXCHARS EQU $06 RESERVED_STACK_POINTER DC.B 0 ; setup default mem layout for xprom runtime environment STDLIB_MEMSETUP SUBROUTINE lda #$36 sta $01 rts ; print null-terminated petscii string STDLIB_PRINT SUBROUTINE sta $6f ; store string start low byte sty $70 ; store string start high byte ldy #$00 ; set length to 0 .1: lda ($6f),y ; get byte from string beq .2 ; exit loop if null byte [EOS] jsr KERNAL_PRINTCHR iny bne .1 .2: rts ; convert byte type decimal petscii STDLIB_BYTE_TO_PETSCII SUBROUTINE ldy #$2f ldx #$3a sec .1: iny sbc #100 bcs .1 .2: dex adc #10 bmi .2 adc #$2f rts ; print byte type as decimal STDLIB_PRINT_BYTE SUBROUTINE jsr STDLIB_BYTE_TO_PETSCII pha tya cmp #$30 beq .skip jsr KERNAL_PRINTCHR .skip txa cmp #$30 beq .skip2 jsr KERNAL_PRINTCHR .skip2 pla jsr KERNAL_PRINTCHR rts ; opcode for print byte as decimal MAC stdlib_printb pla jsr STDLIB_PRINT_BYTE ENDM ; print word as petscii decimal STDLIB_PRINT_WORD SUBROUTINE lda #<.tt sta $6f ; store dividend_ptr_lb lda #>.tt sta $70 ; store dividend_ptr_hb lda #$00 sta reserved6 ; has a non-zero char been printed? lda reserved2+1 bpl .skip1 ; negate number and print "-" twoscomplement reserved2 lda #$2d jsr KERNAL_PRINTCHR .skip1 ldy #$00 .loop: lda ($6f),y sta reserved0 iny lda ($6f),y sta reserved0+1 tya pha jsr NUCL_DIVU16 lda reserved2 ora reserved6 beq .skip inc reserved6 lda reserved2 jsr STDLIB_PRINT_BYTE .skip: pla tay iny cpy #$08 beq .end lda reserved4 sta reserved2 lda reserved4+1 sta reserved2+1 jmp .loop .end: lda reserved4 clc adc #$30 jsr KERNAL_PRINTCHR rts .tt DC.W #10000 .ot DC.W #1000 .oh DC.W #100 .tn DC.W #10 ; opcode for print word as decimal MAC stdlib_printw pla sta reserved2+1 pla sta reserved2 jsr STDLIB_PRINT_WORD ENDM MAC stdlib_putstr pla tay pla jsr STDLIB_PRINT ENDM MAC stdlib_putchar pla jsr KERNAL_PRINTCHR ENDM STDLIB_INPUT SUBROUTINE .init: ldx #INPUT_MAXCHARS lda #$00 .loop: sta input_str,x dex bpl .loop lda #$00 sta input_counter lda #62 jsr KERNAL_PRINTCHR .again: lda #228 jsr KERNAL_PRINTCHR .input: jsr KERNAL_GETIN beq .input cmp #$14 beq .input_delete cmp #$0d beq .input_done ldx input_counter cpx #INPUT_MAXCHARS beq .input jmp .input_filter .reg: inc input_counter ldx input_counter dex sta input_str,x .output: pha lda #20 jsr KERNAL_PRINTCHR pla jsr KERNAL_PRINTCHR jmp .again .input_delete: pha lda input_counter bne .skip pla jmp .input .skip: pla dec input_counter jmp .output .input_filter: cmp #$2d beq .minus cmp #$3a bcc .ok1 jmp .input .ok1: cmp #$30 bcs .ok2 jmp .input .ok2: jmp .reg .minus: ldx input_counter bne *+5 jmp .reg jmp .input .input_done: lda #20 jsr KERNAL_PRINTCHR lda input_counter jsr STDLIB_STRVAL lda input_err beq .input_success jmp .init .input_success: rts input_counter DC.B $00 input_str HEX 00 00 00 00 00 00 00 input_val HEX 00 00 input_err HEX 00 STDLIB_STRVAL SUBROUTINE tax beq .error lda #$00 sta .digit_counter sta input_err lda input_str-1,x cmp #$2d beq .error sec sbc #$30 sta reserved0 lda #$00 sta reserved1 sta reserved2 sta reserved3 .loop: inc .digit_counter dex beq .done lda input_str-1,x cmp #$2d beq .minus sec sbc #$30 sta reserved2 lda #$00 sta reserved3 jsr .mult clc lda reserved2 adc reserved0 sta reserved0 lda reserved3 adc reserved1 sta reserved1 jmp .loop .done: rts .minus lda reserved0 pha lda reserved1 pha negw pla sta reserved1 pla sta reserved0 rts .error lda #<.redo ldy #>.redo jsr STDLIB_PRINT inc input_err rts .mult ldy .digit_counter .mult10 clc rol reserved2 ; x2 rol reserved2+1 lda reserved2 ; save to temp sta reserved4 lda reserved2+1 sta reserved4+1 clc rol reserved2 ; x2 rol reserved2+1 clc rol reserved2 ; x2 rol reserved2+1 clc lda reserved4 adc reserved2 sta reserved2 lda reserved4+1 adc reserved2+1 sta reserved2+1 dey bne .mult10 rts .digit_counter HEX 00 .redo HEX 0d 52 45 44 4F 00 MAC input jsr STDLIB_INPUT lda reserved0 pha lda reserved1 pha lda #13 jsr KERNAL_PRINTCHR ENDM
if application "Sonos" is not running then tell application "Sonos" to activate tell application "System Events" repeat until visible of process "Sonos" is true delay 0.1 end repeat delay 1 -- After app becomes visible, wait for it to render its buttons end tell end if tell application "System Events" tell process "Sonos" set value of slider 1 of window 1 to get (value of slider 1 of window 1) + 2 end tell end tell
// SPDX-License-Identifier: Unlicensed pragma solidity ^0.6.12; abstract contract Context { function _msgSender() internal view virtual returns (address payable) { return msg.sender; } function _msgData() internal view virtual returns (bytes memory) { this; // silence state mutability warning without generating bytecode - see https://github.com/ethereum/solidity/issues/2691 return msg.data; } } interface IERC20 { /** * @dev Returns the amount of tokens in existence. */ function totalSupply() external view returns (uint256); /** * @dev Returns the amount of tokens owned by `account`. */ function balanceOf(address account) external view returns (uint256); /** * @dev Moves `amount` tokens from the caller's account to `recipient`. * * Returns a boolean value indicating whether the operation succeeded. * * Emits a {Transfer} event. */ function transfer(address recipient, uint256 amount) external returns (bool); /** * @dev Returns the remaining number of tokens that `spender` will be * allowed to spend on behalf of `owner` through {transferFrom}. This is * zero by default. * * This value changes when {approve} or {transferFrom} are called. */ function allowance(address owner, address spender) external view returns (uint256); /** * @dev Sets `amount` as the allowance of `spender` over the caller's tokens. * * Returns a boolean value indicating whether the operation succeeded. * * IMPORTANT: Beware that changing an allowance with this method brings the risk * that someone may use both the old and the new allowance by unfortunate * transaction ordering. One possible solution to mitigate this race * condition is to first reduce the spender's allowance to 0 and set the * desired value afterwards: * https://github.com/ethereum/EIPs/issues/20#issuecomment-263524729 * * Emits an {Approval} event. */ function approve(address spender, uint256 amount) external returns (bool); /** * @dev Moves `amount` tokens from `sender` to `recipient` using the * allowance mechanism. `amount` is then deducted from the caller's * allowance. * * Returns a boolean value indicating whether the operation succeeded. * * Emits a {Transfer} event. */ function transferFrom(address sender, address recipient, uint256 amount) external returns (bool); /** * @dev Emitted when `value` tokens are moved from one account (`from`) to * another (`to`). * * Note that `value` may be zero. */ event Transfer(address indexed from, address indexed to, uint256 value); /** * @dev Emitted when the allowance of a `spender` for an `owner` is set by * a call to {approve}. `value` is the new allowance. */ event Approval(address indexed owner, address indexed spender, uint256 value); } library SafeMath { /** * @dev Returns the addition of two unsigned integers, reverting on * overflow. * * Counterpart to Solidity's `+` operator. * * Requirements: * * - Addition cannot overflow. */ function add(uint256 a, uint256 b) internal pure returns (uint256) { uint256 c = a + b; require(c >= a, "SafeMath: addition overflow"); return c; } /** * @dev Returns the subtraction of two unsigned integers, reverting on * overflow (when the result is negative). * * Counterpart to Solidity's `-` operator. * * Requirements: * * - Subtraction cannot overflow. */ function sub(uint256 a, uint256 b) internal pure returns (uint256) { return sub(a, b, "SafeMath: subtraction overflow"); } /** * @dev Returns the subtraction of two unsigned integers, reverting with custom message on * overflow (when the result is negative). * * Counterpart to Solidity's `-` operator. * * Requirements: * * - Subtraction cannot overflow. */ function sub(uint256 a, uint256 b, string memory errorMessage) internal pure returns (uint256) { require(b <= a, errorMessage); uint256 c = a - b; return c; } /** * @dev Returns the multiplication of two unsigned integers, reverting on * overflow. * * Counterpart to Solidity's `*` operator. * * Requirements: * * - Multiplication cannot overflow. */ function mul(uint256 a, uint256 b) internal pure returns (uint256) { // Gas optimization: this is cheaper than requiring 'a' not being zero, but the // benefit is lost if 'b' is also tested. // See: https://github.com/OpenZeppelin/openzeppelin-contracts/pull/522 if (a == 0) { return 0; } uint256 c = a * b; require(c / a == b, "SafeMath: multiplication overflow"); return c; } /** * @dev Returns the integer division of two unsigned integers. Reverts on * division by zero. The result is rounded towards zero. * * Counterpart to Solidity's `/` operator. Note: this function uses a * `revert` opcode (which leaves remaining gas untouched) while Solidity * uses an invalid opcode to revert (consuming all remaining gas). * * Requirements: * * - The divisor cannot be zero. */ function div(uint256 a, uint256 b) internal pure returns (uint256) { return div(a, b, "SafeMath: division by zero"); } /** * @dev Returns the integer division of two unsigned integers. Reverts with custom message on * division by zero. The result is rounded towards zero. * * Counterpart to Solidity's `/` operator. Note: this function uses a * `revert` opcode (which leaves remaining gas untouched) while Solidity * uses an invalid opcode to revert (consuming all remaining gas). * * Requirements: * * - The divisor cannot be zero. */ function div(uint256 a, uint256 b, string memory errorMessage) internal pure returns (uint256) { require(b > 0, errorMessage); uint256 c = a / b; // assert(a == b * c + a % b); // There is no case in which this doesn't hold return c; } /** * @dev Returns the remainder of dividing two unsigned integers. (unsigned integer modulo), * Reverts when dividing by zero. * * Counterpart to Solidity's `%` operator. This function uses a `revert` * opcode (which leaves remaining gas untouched) while Solidity uses an * invalid opcode to revert (consuming all remaining gas). * * Requirements: * * - The divisor cannot be zero. */ function mod(uint256 a, uint256 b) internal pure returns (uint256) { return mod(a, b, "SafeMath: modulo by zero"); } /** * @dev Returns the remainder of dividing two unsigned integers. (unsigned integer modulo), * Reverts with custom message when dividing by zero. * * Counterpart to Solidity's `%` operator. This function uses a `revert` * opcode (which leaves remaining gas untouched) while Solidity uses an * invalid opcode to revert (consuming all remaining gas). * * Requirements: * * - The divisor cannot be zero. */ function mod(uint256 a, uint256 b, string memory errorMessage) internal pure returns (uint256) { require(b != 0, errorMessage); return a % b; } } library Address { /** * @dev Returns true if `account` is a contract. * * [IMPORTANT] * ==== * It is unsafe to assume that an address for which this function returns * false is an externally-owned account (EOA) and not a contract. * * Among others, `isContract` will return false for the following * types of addresses: * * - an externally-owned account * - a contract in construction * - an address where a contract will be created * - an address where a contract lived, but was destroyed * ==== */ function isContract(address account) internal view returns (bool) { // According to EIP-1052, 0x0 is the value returned for not-yet created accounts // and 0xc5d2460186f7233c927e7db2dcc703c0e500b653ca82273b7bfad8045d85a470 is returned // for accounts without code, i.e. `keccak256('')` bytes32 codehash; bytes32 accountHash = 0xc5d2460186f7233c927e7db2dcc703c0e500b653ca82273b7bfad8045d85a470; // solhint-disable-next-line no-inline-assembly assembly { codehash := extcodehash(account) } return (codehash != accountHash && codehash != 0x0); } /** * @dev Replacement for Solidity's `transfer`: sends `amount` wei to * `recipient`, forwarding all available gas and reverting on errors. * * https://eips.ethereum.org/EIPS/eip-1884[EIP1884] increases the gas cost * of certain opcodes, possibly making contracts go over the 2300 gas limit * imposed by `transfer`, making them unable to receive funds via * `transfer`. {sendValue} removes this limitation. * * https://diligence.consensys.net/posts/2019/09/stop-using-soliditys-transfer-now/[Learn more]. * * IMPORTANT: because control is transferred to `recipient`, care must be * taken to not create reentrancy vulnerabilities. Consider using * {ReentrancyGuard} or the * https://solidity.readthedocs.io/en/v0.5.11/security-considerations.html#use-the-checks-effects-interactions-pattern[checks-effects-interactions pattern]. */ function sendValue(address payable recipient, uint256 amount) internal { require(address(this).balance >= amount, "Address: insufficient balance"); // solhint-disable-next-line avoid-low-level-calls, avoid-call-value (bool success, ) = recipient.call{ value: amount }(""); require(success, "Address: unable to send value, recipient may have reverted"); } /** * @dev Performs a Solidity function call using a low level `call`. A * plain`call` is an unsafe replacement for a function call: use this * function instead. * * If `target` reverts with a revert reason, it is bubbled up by this * function (like regular Solidity function calls). * * Returns the raw returned data. To convert to the expected return value, * use https://solidity.readthedocs.io/en/latest/units-and-global-variables.html?highlight=abi.decode#abi-encoding-and-decoding-functions[`abi.decode`]. * * Requirements: * * - `target` must be a contract. * - calling `target` with `data` must not revert. * * _Available since v3.1._ */ function functionCall(address target, bytes memory data) internal returns (bytes memory) { return functionCall(target, data, "Address: low-level call failed"); } /** * @dev Same as {xref-Address-functionCall-address-bytes-}[`functionCall`], but with * `errorMessage` as a fallback revert reason when `target` reverts. * * _Available since v3.1._ */ function functionCall(address target, bytes memory data, string memory errorMessage) internal returns (bytes memory) { return _functionCallWithValue(target, data, 0, errorMessage); } /** * @dev Same as {xref-Address-functionCall-address-bytes-}[`functionCall`], * but also transferring `value` wei to `target`. * * Requirements: * * - the calling contract must have an ETH balance of at least `value`. * - the called Solidity function must be `payable`. * * _Available since v3.1._ */ function functionCallWithValue(address target, bytes memory data, uint256 value) internal returns (bytes memory) { return functionCallWithValue(target, data, value, "Address: low-level call with value failed"); } /** * @dev Same as {xref-Address-functionCallWithValue-address-bytes-uint256-}[`functionCallWithValue`], but * with `errorMessage` as a fallback revert reason when `target` reverts. * * _Available since v3.1._ */ function functionCallWithValue(address target, bytes memory data, uint256 value, string memory errorMessage) internal returns (bytes memory) { require(address(this).balance >= value, "Address: insufficient balance for call"); return _functionCallWithValue(target, data, value, errorMessage); } function _functionCallWithValue(address target, bytes memory data, uint256 weiValue, string memory errorMessage) private returns (bytes memory) { require(isContract(target), "Address: call to non-contract"); // solhint-disable-next-line avoid-low-level-calls (bool success, bytes memory returndata) = target.call{ value: weiValue }(data); if (success) { return returndata; } else { // Look for revert reason and bubble it up if present if (returndata.length > 0) { // The easiest way to bubble the revert reason is using memory via assembly // solhint-disable-next-line no-inline-assembly assembly { let returndata_size := mload(returndata) revert(add(32, returndata), returndata_size) } } else { revert(errorMessage); } } } } contract Ownable is Context { address private _owner; event OwnershipTransferred(address indexed previousOwner, address indexed newOwner); /** * @dev Initializes the contract setting the deployer as the initial owner. */ constructor () internal { address msgSender = _msgSender(); _owner = msgSender; emit OwnershipTransferred(address(0), msgSender); } /** * @dev Returns the address of the current owner. */ function owner() public view returns (address) { return _owner; } /** * @dev Throws if called by any account other than the owner. */ modifier onlyOwner() { require(_owner == _msgSender(), "Ownable: caller is not the owner"); _; } /** * @dev Leaves the contract without owner. It will not be possible to call * `onlyOwner` functions anymore. Can only be called by the current owner. * * NOTE: Renouncing ownership will leave the contract without an owner, * thereby removing any functionality that is only available to the owner. */ function renounceOwnership() public virtual onlyOwner { emit OwnershipTransferred(_owner, address(0)); _owner = address(0); } /** * @dev Transfers ownership of the contract to a new account (`newOwner`). * Can only be called by the current owner. */ function transferOwnership(address newOwner) public virtual onlyOwner { require(newOwner != address(0), "Ownable: new owner is the zero address"); emit OwnershipTransferred(_owner, newOwner); _owner = newOwner; } } contract eMax is Context, IERC20, Ownable { using SafeMath for uint256; using Address for address; mapping (address => uint256) private _rOwned; mapping (address => uint256) private _tOwned; mapping (address => mapping (address => uint256)) private _allowances; mapping (address => bool) private _isExcluded; address[] private _excluded; uint256 private constant MAX = ~uint256(0); uint256 private constant _tTotal = 2000000000 * 10**6 * 10**18; uint256 private _rTotal = (MAX - (MAX % _tTotal)); uint256 private _tFeeTotal; string private _name = 'EthereumMax'; string private _symbol = 'eMax'; uint8 private _decimals = 18; uint256 public _maxTxAmount = 20000000 * 10**6 * 10**18; constructor () public { _rOwned[_msgSender()] = _rTotal; emit Transfer(address(0), _msgSender(), _tTotal); } function name() public view returns (string memory) { return _name; } function symbol() public view returns (string memory) { return _symbol; } function decimals() public view returns (uint8) { return _decimals; } function totalSupply() public view override returns (uint256) { return _tTotal; } function balanceOf(address account) public view override returns (uint256) { if (_isExcluded[account]) return _tOwned[account]; return tokenFromReflection(_rOwned[account]); } function transfer(address recipient, uint256 amount) public override returns (bool) { _transfer(_msgSender(), recipient, amount); return true; } function allowance(address owner, address spender) public view override returns (uint256) { return _allowances[owner][spender]; } function approve(address spender, uint256 amount) public override returns (bool) { _approve(_msgSender(), spender, amount); return true; } function transferFrom(address sender, address recipient, uint256 amount) public override returns (bool) { _transfer(sender, recipient, amount); _approve(sender, _msgSender(), _allowances[sender][_msgSender()].sub(amount, "ERC20: transfer amount exceeds allowance")); return true; } function increaseAllowance(address spender, uint256 addedValue) public virtual returns (bool) { _approve(_msgSender(), spender, _allowances[_msgSender()][spender].add(addedValue)); return true; } function decreaseAllowance(address spender, uint256 subtractedValue) public virtual returns (bool) { _approve(_msgSender(), spender, _allowances[_msgSender()][spender].sub(subtractedValue, "ERC20: decreased allowance below zero")); return true; } function isExcluded(address account) public view returns (bool) { return _isExcluded[account]; } function totalFees() public view returns (uint256) { return _tFeeTotal; } function setMaxTxPercent(uint256 maxTxPercent) external onlyOwner() { _maxTxAmount = _tTotal.mul(maxTxPercent).div( 10**2 ); } function reflect(uint256 tAmount) public { address sender = _msgSender(); require(!_isExcluded[sender], "Excluded addresses cannot call this function"); (uint256 rAmount,,,,) = _getValues(tAmount); _rOwned[sender] = _rOwned[sender].sub(rAmount); _rTotal = _rTotal.sub(rAmount); _tFeeTotal = _tFeeTotal.add(tAmount); } function reflectionFromToken(uint256 tAmount, bool deductTransferFee) public view returns(uint256) { require(tAmount <= _tTotal, "Amount must be less than supply"); if (!deductTransferFee) { (uint256 rAmount,,,,) = _getValues(tAmount); return rAmount; } else { (,uint256 rTransferAmount,,,) = _getValues(tAmount); return rTransferAmount; } } function tokenFromReflection(uint256 rAmount) public view returns(uint256) { require(rAmount <= _rTotal, "Amount must be less than total reflections"); uint256 currentRate = _getRate(); return rAmount.div(currentRate); } function excludeAccount(address account) external onlyOwner() { require(!_isExcluded[account], "Account is already excluded"); if(_rOwned[account] > 0) { _tOwned[account] = tokenFromReflection(_rOwned[account]); } _isExcluded[account] = true; _excluded.push(account); } function includeAccount(address account) external onlyOwner() { require(_isExcluded[account], "Account is already excluded"); for (uint256 i = 0; i < _excluded.length; i++) { if (_excluded[i] == account) { _excluded[i] = _excluded[_excluded.length - 1]; _tOwned[account] = 0; _isExcluded[account] = false; _excluded.pop(); break; } } } function _approve(address owner, address spender, uint256 amount) private { require(owner != address(0), "ERC20: approve from the zero address"); require(spender != address(0), "ERC20: approve to the zero address"); _allowances[owner][spender] = amount; emit Approval(owner, spender, amount); } function _transfer(address sender, address recipient, uint256 amount) private { require(sender != address(0), "ERC20: transfer from the zero address"); require(recipient != address(0), "ERC20: transfer to the zero address"); require(amount > 0, "Transfer amount must be greater than zero"); if(sender != owner() && recipient != owner()) require(amount <= _maxTxAmount, "Transfer amount exceeds the maxTxAmount."); if (_isExcluded[sender] && !_isExcluded[recipient]) { _transferFromExcluded(sender, recipient, amount); } else if (!_isExcluded[sender] && _isExcluded[recipient]) { _transferToExcluded(sender, recipient, amount); } else if (!_isExcluded[sender] && !_isExcluded[recipient]) { _transferStandard(sender, recipient, amount); } else if (_isExcluded[sender] && _isExcluded[recipient]) { _transferBothExcluded(sender, recipient, amount); } else { _transferStandard(sender, recipient, amount); } } function _transferStandard(address sender, address recipient, uint256 tAmount) private { (uint256 rAmount, uint256 rTransferAmount, uint256 rFee, uint256 tTransferAmount, uint256 tFee) = _getValues(tAmount); _rOwned[sender] = _rOwned[sender].sub(rAmount); _rOwned[recipient] = _rOwned[recipient].add(rTransferAmount); _reflectFee(rFee, tFee); emit Transfer(sender, recipient, tTransferAmount); } function _transferToExcluded(address sender, address recipient, uint256 tAmount) private { (uint256 rAmount, uint256 rTransferAmount, uint256 rFee, uint256 tTransferAmount, uint256 tFee) = _getValues(tAmount); _rOwned[sender] = _rOwned[sender].sub(rAmount); _tOwned[recipient] = _tOwned[recipient].add(tTransferAmount); _rOwned[recipient] = _rOwned[recipient].add(rTransferAmount); _reflectFee(rFee, tFee); emit Transfer(sender, recipient, tTransferAmount); } function _transferFromExcluded(address sender, address recipient, uint256 tAmount) private { (uint256 rAmount, uint256 rTransferAmount, uint256 rFee, uint256 tTransferAmount, uint256 tFee) = _getValues(tAmount); _tOwned[sender] = _tOwned[sender].sub(tAmount); _rOwned[sender] = _rOwned[sender].sub(rAmount); _rOwned[recipient] = _rOwned[recipient].add(rTransferAmount); _reflectFee(rFee, tFee); emit Transfer(sender, recipient, tTransferAmount); } function _transferBothExcluded(address sender, address recipient, uint256 tAmount) private { (uint256 rAmount, uint256 rTransferAmount, uint256 rFee, uint256 tTransferAmount, uint256 tFee) = _getValues(tAmount); _tOwned[sender] = _tOwned[sender].sub(tAmount); _rOwned[sender] = _rOwned[sender].sub(rAmount); _tOwned[recipient] = _tOwned[recipient].add(tTransferAmount); _rOwned[recipient] = _rOwned[recipient].add(rTransferAmount); _reflectFee(rFee, tFee); emit Transfer(sender, recipient, tTransferAmount); } function _reflectFee(uint256 rFee, uint256 tFee) private { _rTotal = _rTotal.sub(rFee); _tFeeTotal = _tFeeTotal.add(tFee); } function _getValues(uint256 tAmount) private view returns (uint256, uint256, uint256, uint256, uint256) { (uint256 tTransferAmount, uint256 tFee) = _getTValues(tAmount); uint256 currentRate = _getRate(); (uint256 rAmount, uint256 rTransferAmount, uint256 rFee) = _getRValues(tAmount, tFee, currentRate); return (rAmount, rTransferAmount, rFee, tTransferAmount, tFee); } function _getTValues(uint256 tAmount) private pure returns (uint256, uint256) { uint256 tFee = tAmount.div(100).mul(2); uint256 tTransferAmount = tAmount.sub(tFee); return (tTransferAmount, tFee); } function _getRValues(uint256 tAmount, uint256 tFee, uint256 currentRate) private pure returns (uint256, uint256, uint256) { uint256 rAmount = tAmount.mul(currentRate); uint256 rFee = tFee.mul(currentRate); uint256 rTransferAmount = rAmount.sub(rFee); return (rAmount, rTransferAmount, rFee); } function _getRate() private view returns(uint256) { (uint256 rSupply, uint256 tSupply) = _getCurrentSupply(); return rSupply.div(tSupply); } function _getCurrentSupply() private view returns(uint256, uint256) { uint256 rSupply = _rTotal; uint256 tSupply = _tTotal; for (uint256 i = 0; i < _excluded.length; i++) { if (_rOwned[_excluded[i]] > rSupply || _tOwned[_excluded[i]] > tSupply) return (_rTotal, _tTotal); rSupply = rSupply.sub(_rOwned[_excluded[i]]); tSupply = tSupply.sub(_tOwned[_excluded[i]]); } if (rSupply < _rTotal.div(_tTotal)) return (_rTotal, _tTotal); return (rSupply, tSupply); } }
:: :: Copyright (c) 2008-2017 the Urho3D project. :: :: Permission is hereby granted, free of charge, to any person obtaining a copy :: of this software and associated documentation files (the "Software"), to deal :: in the Software without restriction, including without limitation the rights :: to use, copy, modify, merge, publish, distribute, sublicense, and/or sell :: copies of the Software, and to permit persons to whom the Software is :: furnished to do so, subject to the following conditions: :: :: The above copyright notice and this permission notice shall be included in :: all copies or substantial portions of the Software. :: :: THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR :: IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, :: FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE :: AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER :: LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, :: OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN :: THE SOFTWARE. :: @"%~dp0cmake_generic.bat" %* -G "Ninja"
/- Copyright (c) 2017 Microsoft Corporation. All rights reserved. Released under Apache 2.0 license as described in the file LICENSE. Author: Leonardo de Moura -/ prelude import init.data.fin.basic init.data.fin.ops
<?xml version="1.0" encoding="UTF-8"?> <xsl:stylesheet version="1.0" xmlns:xsl="http://www.w3.org/1999/XSL/Transform"> <xsl:template match="/"> <html> <head> <title><xsl:value-of select="billStatus/bill/canonicalname"/></title> <meta charset="utf-8"/> <meta name="viewport" content="width=device-width, initial-scale=1"/> <link rel="stylesheet" href="https://maxcdn.bootstrapcdn.com/bootstrap/3.3.7/css/bootstrap.min.css"/> <script src="https://ajax.googleapis.com/ajax/libs/jquery/3.2.1/jquery.min.js"></script> <script src="https://maxcdn.bootstrapcdn.com/bootstrap/3.3.7/js/bootstrap.min.js"></script> <style> body { background-color: rgba(201, 76, 76,.4); } </style> </head> <body> <div class="container"> <div class="row"> <div class="col-xs-12"> <h1 id="title"><xsl:value-of select="billStatus/bill/canonicalname"/></h1> </div> </div> <div class="row"> <div class="col-xs-6"> <p><h3>Bill Text</h3></p> <p class="billtext"><xsl:value-of select="billStatus/bill/billText"/></p> </div> <div class="col-xs-6"> <h2 text-align="center">Bill History and Summary</h2> <p><h3>History</h3></p><div><xsl:value-of select="billStatus/bill/summaries/history"/></div> <p><h3>Summary</h3></p><div><xsl:value-of select="billStatus/bill/summaries/summary"/></div> </div> </div> <hr/> <div class="row"> <div class="col-xs-12"> <p><h2>Misc. Bill Info</h2></p> <p> Introduced Date: <span text-align="right" class="introduceddate"> <xsl:value-of select="billStatus/bill/introducedDate"/></span></p> <p>Legislation number: <xsl:value-of select="billStatus/bill/canonicalname"/></p> <p><a> <xsl:attribute name="href"> <xsl:value-of select="billStatus/bill/canonicalname"></xsl:value-of> <xsl:text>.pdf</xsl:text> </xsl:attribute> PDF link </a></p> <br></br> <h3>Sponsors and Authors</h3> <div class="sponsors"></div> <h3>Actions</h3> <div class="actions"></div> </div> </div> </div> </body> </html> </xsl:template> </xsl:stylesheet>
-- This droplet processes folders dropped onto the applet on open these_items repeat with i from 1 to the count of these_items set this_item to item i of these_items set the item_info to info for this_item if (alias of the item_info is false) and (folder of the item_info is true) then process_item(this_item) end if end repeat end open -- this sub-routine processes folders on process_item(this_item) -- NOTE that the variable this_item is a folder reference in alias format -- FOLDER PROCESSING STATEMENTS GOES HERE end process_item
#!/bin/csh # # DART software - Copyright UCAR. This open source software is provided # by UCAR, "as is", without charge, subject to all terms of use at # http://www.image.ucar.edu/DAReS/DART/DART_download # diagnostics_obs.csh - shell script that computes observation # specific diagnostics. # # $1 - analysis date # $2 - parameter file # # created Aug. 2009 Ryan Torn, U. Albany set datea = ${1} set paramfile = ${2} source $paramfile cd $OBS_DIAG_DIR ${COPY} ${TEMPLATE_DIR}/input.nml.template input.nml set gdate = (`echo $datea 0 -g | ${DART_DIR}/models/wrf/work/advance_time`) set yyyy2 = `echo $datea | cut -b1-4` set mm2 = `echo $datea | cut -b5-6` set dd2 = `echo $datea | cut -b7-8` set hh2 = `echo $datea | cut -b9-10` # Determine appropriate dates for observation diagnostics @ nhours = $OBS_VERIF_DAYS * 24 set datef = `echo $datea -${nhours} | ${DART_DIR}/models/wrf/work/advance_time` set yyyy1 = `echo $datef | cut -b1-4` set mm1 = `echo $datef | cut -b5-6` set dd1 = `echo $datef | cut -b7-8` set hh1 = `echo $datef | cut -b9-10` @ half_bin = $ASSIM_INT_HOURS / 2 set datefbs = `echo $datef -${half_bin} | ${DART_DIR}/models/wrf/work/advance_time` set fbs_yyyy1 = `echo $datefbs | cut -b1-4` set fbs_mm1 = `echo $datefbs | cut -b5-6` set fbs_dd1 = `echo $datefbs | cut -b7-8` set fbs_hh1 = `echo $datefbs | cut -b9-10` set datefbe = `echo $datef ${half_bin} | ${DART_DIR}/models/wrf/work/advance_time` set fbe_yyyy1 = `echo $datefbe | cut -b1-4` set fbe_mm1 = `echo $datefbe | cut -b5-6` set fbe_dd1 = `echo $datefbe | cut -b7-8` set fbe_hh1 = `echo $datefbe | cut -b9-10` set datelbe = `echo $datea ${half_bin} | ${DART_DIR}/models/wrf/work/advance_time` set lbe_yyyy1 = `echo $datelbe | cut -b1-4` set lbe_mm1 = `echo $datelbe | cut -b5-6` set lbe_dd1 = `echo $datelbe | cut -b7-8` set lbe_hh1 = `echo $datelbe | cut -b9-10` while ( $datef <= $datea ) if ( -e ${OUTPUT_DIR}/${datef}/obs_seq.final ) ${LINK} ${OUTPUT_DIR}/${datef}/obs_seq.final obs_seq.final_${datef} set datef = `echo $datef $ASSIM_INT_HOURS | ${DART_DIR}/models/wrf/work/advance_time` end ls -1 obs_seq.final_* >! flist cat >! script.sed << EOF /obs_sequence_name/c\ obs_sequence_name = '', /obs_sequence_list/c\ obs_sequence_list = 'flist', /first_bin_center/c\ first_bin_center = ${yyyy1}, ${mm1}, ${dd1}, ${hh1}, 0, 0, /last_bin_center/c\ last_bin_center = ${yyyy2}, ${mm2}, ${dd2}, ${hh2}, 0, 0, /filename_seq /c\ filename_seq = 'obs_seq.final', /filename_seq_list/c\ filename_seq_list = '', /filename_out/c\ filename_out = 'obs_seq.final_reduced', /first_obs_days/c\ first_obs_days = -1, /first_obs_seconds/c\ first_obs_seconds = -1, /last_obs_days/c\ last_obs_days = -1, /last_obs_seconds/c\ last_obs_seconds = -1, /edit_copies/c\ edit_copies = .true., /new_copy_index/c\ new_copy_index = 1, 2, 3, 4, 5, /first_bin_start/c\ first_bin_start = ${fbs_yyyy1}, ${fbs_mm1}, ${fbs_dd1}, ${fbs_hh1}, 0, 0, /first_bin_end/c\ first_bin_end = ${fbe_yyyy1}, ${fbe_mm1}, ${fbe_dd1}, ${fbe_hh1}, 0, 0, /last_bin_end/c\ last_bin_end = ${lbe_yyyy1}, ${lbe_mm1}, ${lbe_dd1}, ${lbe_hh1}, 0, 0, EOF sed -f script.sed ${TEMPLATE_DIR}/input.nml.template >! input.nml # create the state-space diagnostic summary ${DART_DIR}/models/wrf/work/obs_diag || exit 1 ${MOVE} obs_diag_output.nc ${OUTPUT_DIR}/${datea}/. ${MOVE} `ls -1 observation_locations.*.dat | tail -1` ${OUTPUT_DIR}/${datea}/observation_locations.dat # create a netCDF file with the original observation data (may not have some of the unusual metadata) ${DART_DIR}/models/wrf/work/obs_seq_to_netcdf ${MOVE} obs_epoch* ${OUTPUT_DIR}/${datea}/ ${REMOVE} *.txt obs_seq.final_* flist observation_locations.*.dat # prune the obs_seq.final and store result keeps first 5 copies? why not set num_output_obs = 0 # is it the time subsetting that is of interest? ${LINK} ${OUTPUT_DIR}/${datea}/obs_seq.final . ${DART_DIR}/models/wrf/work/obs_sequence_tool ${MOVE} obs_seq.final_reduced ${OUTPUT_DIR}/${datea}/. ${REMOVE} obs_seq.final # process the mean analysis increment cd ${OUTPUT_DIR}/${datea} ${COPY} ${SHELL_SCRIPTS_DIR}/mean_increment.ncl . echo "ncl ${OUTPUT_DIR}/${datea}/mean_increment.ncl" >! nclrun.out chmod +x nclrun.out ./nclrun.out touch ${OUTPUT_DIR}/${datea}/obs_diags_done exit 0
unit CustomAction.FileMaker.FM7DevPath; interface uses SysUtils, Classes, routines_msi, Msi, MsiDefs, CustomAction.FileMaker , MsiQuery; function FM7DevPath(hInstall: MSIHANDLE): UINT; stdcall; function FM7DevBinPath(hInstall: MSIHANDLE): UINT; stdcall; implementation uses Youseful.exceptions,CustomAction.Logging; function FM7DevBinPath(hInstall: MSIHANDLE): UINT; stdcall; var Rtn :integer; begin msiLog(hInstall, 'FM7DevBinPath Entered'); result := GetFMBinPath(hInstall,'FMPRO70DEV','FM70DEVBIN'); msiLog(hInstall, 'FM7DevBinPath Entered'); end; function FM7DevPath(hInstall: MSIHANDLE): UINT; stdcall; var Rtn :integer; begin msiLog(hInstall, 'FM7DevPath Entered'); result := GetFMPath(hInstall,'FMPRO70DEV','FM70DEVEXT'); msiLog(hInstall, 'FM7DevPath Entered'); end; end.
open main pred idk2ffMRLWGotQAmtZo_prop20 { always all f : File | f in Trash since f not in Protected } pred __repair { idk2ffMRLWGotQAmtZo_prop20 } check __repair { idk2ffMRLWGotQAmtZo_prop20 <=> prop20o }
using MetacommunityDynamics using DynamicGrids using Plots using Distributions # Spatially explicit levins model rs = SpatiallyExplicitLevinsColonization{:O}(probability=0.3) + AbioticExtinction{:O}(:A, baseprobability=0.1); pops = pointstogrid(generate(PoissonProcess, 20), gridsize=100) areas = generate(StaticEnvironmentalLayer, similar(pops), Exponential(3), mask=pops) areas = rand(5,5) initocc = rand(Occupancy, 0.8, 5,5) arrayout = ArrayOutput((O=initocc, A=areas ), tspan=1:3) sim!(arrayout, rs)
%% @author Lee Barney %% @copyright 2021 Lee Barney licensed under the <a> %% rel="license" %% href="http://creativecommons.org/licenses/by/4.0/" %% target="_blank"> %% Creative Commons Attribution 4.0 International License</a> %% %% %% These solutions are not intended to be ideal solutions. Instead, %% they are solutions that you can compare against yours to see %% other options and to come up with even better solutions. %% -module(exercise). -export([run/0]). run()-> Initial = trie:add("Dani",dict:new()), io:format("found: ~p~n",[trie:lookup("Dani",Initial)]), io:format("found: ~p~n",[trie:lookup("Daniel",Initial)]), Three_names = trie:add("Daniel",trie:add("Daniella",Initial)), io:format("found: ~p~n",[trie:lookup("Dani",Three_names)]), io:format("found: ~p~n",[trie:lookup("Daniel",Three_names)]), io:format("found: ~p~n",[trie:lookup("Daniella",Three_names)]), Four_names = trie:add("Lee",Three_names), io:format("found: ~p~n",[trie:lookup("Dani",Four_names)]), io:format("found: ~p~n",[trie:lookup("Daniel",Four_names)]), io:format("found: ~p~n",[trie:lookup("Daniella",Four_names)]), io:format("found: ~p~n",[trie:lookup("Lee",Four_names)]), io:format("found: ~p~n",[trie:lookup("Sue",Four_names)]).
\hypertarget{dir_04ed82fa347894d51633089936838d70}{}\doxysection{examples/003-\/json-\/call Directory Reference} \label{dir_04ed82fa347894d51633089936838d70}\index{examples/003-\/json-\/call Directory Reference@{examples/003-\/json-\/call Directory Reference}} \doxysubsection*{Files} \begin{DoxyCompactItemize} \item file \mbox{\hyperlink{003-json-call_2main_8cpp}{main.\+cpp}} \item file \mbox{\hyperlink{003-json-call_2t1_8cpp}{t1.\+cpp}} \item file \mbox{\hyperlink{003-json-call_2t2_8cpp}{t2.\+cpp}} \item file \mbox{\hyperlink{003-json-call_2t3_8cpp}{t3.\+cpp}} \item file \mbox{\hyperlink{003-json-call_2t4_8cpp}{t4.\+cpp}} \item file \mbox{\hyperlink{t4_8h}{t4.\+h}} \item file \mbox{\hyperlink{003-json-call_2t5_8cpp}{t5.\+cpp}} \item file \mbox{\hyperlink{t5_8h}{t5.\+h}} \item file \mbox{\hyperlink{t6_8cpp}{t6.\+cpp}} \item file \mbox{\hyperlink{003-json-call_2test_8h}{test.\+h}} \end{DoxyCompactItemize}
onerror {resume} quietly WaveActivateNextPane {} 0 add wave -noupdate /prueba_snbits/A add wave -noupdate /prueba_snbits/B add wave -noupdate /prueba_snbits/cen add wave -noupdate /prueba_snbits/SUM add wave -noupdate /prueba_snbits/SUMref add wave -noupdate /prueba_snbits/csal add wave -noupdate /prueba_snbits/csalref TreeUpdate [SetDefaultTree] WaveRestoreCursors {{Cursor 1} {0 ps} 0} quietly wave cursor active 0 configure wave -namecolwidth 184 configure wave -valuecolwidth 100 configure wave -justifyvalue left configure wave -signalnamewidth 0 configure wave -snapdistance 10 configure wave -datasetprefix 0 configure wave -rowmargin 4 configure wave -childrowmargin 2 configure wave -gridoffset 40000 configure wave -gridperiod 80000 configure wave -griddelta 40 configure wave -timeline 0 configure wave -timelineunits ns update WaveRestoreZoom {0 ps} {1653758 ps}
<?php include'config/connect.php'; if (isset($_POST['update'])) { $nis = $_POST['nis']; $nama = $_POST['nama']; $kelas = $_POST['kelas']; $tahun = $_POST['tahun']; $que = mysqli_query($koneksi,"UPDATE imports SET nama='$nama',id_kelass='$kelas',tahun_ajaran='$tahun' WHERE nis='$nis'") or die(mysql_error()); if ($que) { echo "<script>alert('Data Berhasil Di Update')</script>"; echo "<meta http-equiv='refresh' content='1 url=data_siswa.php'>"; } else { echo "<script>alert('Gagal Di Update')</script>"; echo '<script>window.history.back()</script>'; # code... } # code... }else{ echo '<script>window.history.back()</script>'; } ?>
/* * 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. */ grammar OracleStatement; import DMLStatement, TCLStatement, DCLStatement, StoreProcedure; execute : (select | insert | update | delete | createTable | alterTable | dropTable | truncateTable | createIndex | dropIndex | alterIndex | commit | rollback | setTransaction | savepoint | grant | revoke | createUser | dropUser | alterUser | createRole | dropRole | alterRole | setRole | call | merge | alterSynonym | alterSession | alterDatabase | alterSystem | setConstraints | analyze | associateStatistics | disassociateStatistics | audit | noAudit | comment | flashbackDatabase | flashbackTable | purge | rename | createDatabase | createDatabaseLink | createDimension | alterDimension | dropDimension | createFunction ) SEMI_? ;
%% coding: latin-1 %%------------------------------------------------------------ %% %% Erlang header file %% %% Target: CosTransactions_Coordinator %% Source: /net/isildur/ldisk/daily_build/19_prebuild_master-opu_o.2016-06-21_20/otp_src_19/lib/cosTransactions/src/CosTransactions.idl %% IC vsn: 4.4.1 %% %% This file is automatically generated. DO NOT EDIT IT. %% %%------------------------------------------------------------ -ifndef(COSTRANSACTIONS_COORDINATOR_HRL). -define(COSTRANSACTIONS_COORDINATOR_HRL, true). -endif.
' Visual Basic .NET Document Option Strict On ' <Snippet1> Imports System.Text.RegularExpressions Module RegexSplit Public Sub Main() Dim regex As Regex = New Regex("-") ' Split on hyphens. Dim substrings() As String = regex.Split("plum--pear") For Each match As String In substrings Console.WriteLine("'{0}'", match) Next End Sub End Module ' The example displays the following output: ' 'plum' ' '' ' 'pear' ' </Snippet1>
> {-# OPTIONS_HADDOCK show-extensions #-} > {-| > Module : LTK.Learn.TSL > Copyright : (c) 2020 Dakotah Lambert > License : MIT > A learner for tier-based strictly local stringsets. > Different types are available via LTK.Learn.TSL.*, > and this module selects a reasonable default. > > @since 0.3 > -} > module LTK.Learn.TSL(module LTK.Learn.TSL.ViaSL) where > import LTK.Learn.TSL.ViaSL
package Slim::Utils::Light; # $Id: $ # Logitech Media Server Copyright 2001-2011 Logitech. # This program is free software; you can redistribute it and/or # modify it under the terms of the GNU General Public License, # version 2. # This module provides some functions compatible with functions # from the core Logitech Media Server code, without their overhead. # These functions are called by helper applications like SqueezeTray # or the control panel. use Exporter::Lite; @ISA = qw(Exporter); use Config; use FindBin qw($Bin); use File::Spec::Functions qw(catfile catdir); our @EXPORT = qw(string getPref); my ($os, $language, %strings, $stringsLoaded); BEGIN { my @SlimINC = (); # NB: The user may be on a platform who's perl reports a # different x86 version than we've supplied - but it may work # anyways. my $arch = $Config::Config{'archname'}; $arch =~ s/^i[3456]86-/i386-/; $arch =~ s/gnu-//; my $perlmajorversion = $Config{'version'}; $perlmajorversion =~ s/\.\d+$//; my $libPath = $Bin; use Slim::Utils::OSDetect; Slim::Utils::OSDetect::init(); if (my $libs = Slim::Utils::OSDetect::dirsFor('libpath')) { # On Debian, RH and SUSE, our CPAN directory is located in the same dir as strings.txt $libPath = $libs; }; @SlimINC = ( catdir($libPath,'CPAN','arch',$perlmajorversion, $arch), catdir($libPath,'CPAN','arch',$perlmajorversion, $arch, 'auto'), catdir($libPath,'CPAN','arch',$Config{'version'}, $Config::Config{'archname'}), catdir($libPath,'CPAN','arch',$Config{'version'}, $Config::Config{'archname'}, 'auto'), catdir($libPath,'CPAN','arch',$perlmajorversion, $Config::Config{'archname'}), catdir($libPath,'CPAN','arch',$perlmajorversion, $Config::Config{'archname'}, 'auto'), catdir($libPath,'CPAN','arch',$Config::Config{'archname'}), catdir($libPath,'lib'), catdir($libPath,'CPAN'), $libPath, ); # This works like 'use lib' # prepend our directories to @INC so we look there first. unshift @INC, @SlimINC; $os = Slim::Utils::OSDetect->getOS(); } my ($serverPrefFile, $versionFile); # return localised version of string token sub string { my $name = shift; loadStrings() unless $stringsLoaded; $language ||= getPref('language') || $os->getSystemLanguage(); my $lang = shift || $language; my $string = $strings{ $name }->{ $lang } || $strings{ $name }->{ $language } || $strings{ $name }->{'EN'} || $name; if ( @_ ) { $string = sprintf( $string, @_ ); } return $string; } sub loadStrings { my $string = ''; my $language = ''; my $stringname = ''; # server string file my $file; # let's see whether this is a PerlApp/Tray compiled executable if (defined $PerlApp::VERSION) { $file = PerlApp::extract_bound_file('strings.txt'); } elsif (defined $PerlTray::VERSION) { $file = PerlTray::extract_bound_file('strings.txt'); } # try to find the strings.txt file from our installation unless ($file && -f $file) { my $path = $os->dirsFor('strings'); $file = catdir($path, 'strings.txt'); } open(STRINGS, "<:utf8", $file) || do { warn "Couldn't open file [$file]!"; return; }; foreach my $line (<STRINGS>) { chomp($line); next if $line =~ /^#/; next if $line !~ /\S/; if ($line =~ /^(\S+)$/) { $stringname = $1; $string = ''; next; } elsif ($line =~ /^\t(\S*)\t(.+)$/) { $language = uc($1); $string = $2; $strings{$stringname}->{$language} = $string; } } close STRINGS; $stringsLoaded = 1; } sub setString { my ($stringname, $string) = @_; loadStrings() unless $stringsLoaded; $language ||= getPref('language') || $os->getSystemLanguage(); $strings{$stringname}->{$language} = $string; } # Read pref from the server preference file - lighter weight than loading YAML # don't call this too often, it's in no way optimized for speed sub getPref { my $pref = shift; my $prefFile = shift; if ($prefFile) { $prefFile = catdir($os->dirsFor('prefs'), 'plugin', $prefFile); } else { $serverPrefFile ||= catfile( scalar($os->dirsFor('prefs')), 'server.prefs' ); $prefFile = $serverPrefFile; } require YAML::XS; my $prefs = eval { YAML::XS::LoadFile($prefFile) }; my $ret; if (!$@) { $ret = $prefs->{$pref}; } # if (-r $prefFile) { # # if (open(PREF, $prefFile)) { # # local $_; # while (<PREF>) { # # # read YAML (server) and old style prefs (installer) # if (/^$pref(:| \=)? (.+)$/) { # $ret = $2; # $ret =~ s/^['"]//; # $ret =~ s/['"\s]*$//s; # last; # } # } # # close(PREF); # } # } return $ret; } sub checkForUpdate { $versionFile ||= catfile( scalar($os->dirsFor('updates')), 'server.version' ); open(UPDATEFLAG, $versionFile) || return ''; my $installer = ''; local $_; while ( <UPDATEFLAG> ) { chomp; if (/(?:LogitechMediaServer|Squeezebox|SqueezeCenter).*/i) { $installer = $_; last; } } close UPDATEFLAG; return $installer if ($installer && -r $installer); } sub resetUpdateCheck { unlink $versionFile if $versionFile && -r $versionFile; } 1;
/* * Copyright (c) Facebook, Inc. and its affiliates. * * 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. */ namespace cpp2 test_cpp2.cpp_reflection struct dep_B_struct { 1: i32 i_b }
/- Basic pi congruence -/ import logic.connectives logic.quantifiers namespace pi_congr1 constants (p1 q1 p2 q2 p3 q3 : Prop) (H1 : p1 ↔ q1) (H2 : p2 ↔ q2) (H3 : p3 ↔ q3) attribute forall_congr [congr] attribute imp_congr [congr] attribute H1 [simp] attribute H2 [simp] attribute H3 [simp] #simplify iff env 1 p1 -- Broken? #simplify iff env 1 p1 → p2 #simplify iff env 1 p1 → p2 → p3 end pi_congr1 namespace pi_congr2 universe l constants (T : Type.{l}) (P Q : T → Prop) (H : ∀ (x : T), P x ↔ Q x) attribute forall_congr [congr] attribute H [simp] constant (x : T) #simplify iff env 1 (∀ (x : T), P x) end pi_congr2
@article{ISI:000408747900002, article-number = {384003}, author = {Giavazzi, Fabio and Malinverno, Chiara and Corallino, Salvatore and Ginelli, Francesco and Scita, Giorgio and Cerbino, Roberto}, doi = {10.1088/1361-6463/aa7f8e}, eissn = {1361-6463}, issn = {0022-3727}, journal = {JOURNAL OF PHYSICS D-APPLIED PHYSICS}, month = {SEP 27}, number = {38}, orcid-numbers = {Cerbino, Roberto/0000-0003-0434-7741 Giavazzi, Fabio/0000-0003-4930-0592}, researcherid-numbers = {Cerbino, Roberto/A-2286-2008 Giavazzi, Fabio/C-3054-2017}, times-cited = {14}, title = {Giant fluctuations and structural effects in a flocking epithelium}, unique-id = {ISI:000408747900002}, volume = {50}, year = {2017} }
PREFIX hpc: <https://github.com/HPC-FAIR/HPC-Ontology#> PREFIX xsd: <http://www.w3.org/2001/XMLSchema#> CONSTRUCT { ?URI a hpc:DecisionTreeNode; hpc:hasIDType ?IDTypestr; hpc:name ?namestr; hpc:alternateName ?alternateNamestr; hpc:description ?descriptionstr; hpc:url ?URLuri; hpc:license ?Licensestr; hpc:submitter ?submitteruri; hpc:submitDate ?SubmitDatedatetime; hpc:DecisionTree ?decisiontreestr;; hpc:treeNodeLevel ?levelint; hpc:decisionFeature ?featurestr; hpc:relationOp ?relationOpstr; hpc:relationValue ?relationValuefloat; hpc:hasChildNode ?hasChildbool; hpc:trueNode ?trueNodeurl; hpc:falseNode ?falseNodeuri; hpc:decisionLabel ?labelstr; } FROM <file:data.csv> WHERE { BIND (URI(CONCAT('http://example.org/decisiontreenode/', STR(CONCAT($DecisionTree,STR(?NodeID))))) AS ?URI) BIND (xsd:string(?IDType) AS ?IDTypestr) BIND (xsd:string(?name) AS ?namestr) BIND (xsd:string(?alternateName) AS ?alternateNamestr) BIND (xsd:string(?description) AS ?descriptionstr) BIND (xsd:anyURI(?URL) AS ?URLuri) BIND (xsd:string(?License) AS ?Licensestr) BIND (URI(CONCAT('http://example.org/person/', STR(?submitter))) AS ?submitteruri) BIND (xsd:dateTime(?SubmitDate) AS ?SubmitDatedatetime) BIND (xsd:string(?DecisionTree) AS ?decisiontreestr) BIND (xsd:integer(?level) AS ?levelint) BIND (xsd:string(?feature) AS ?featurestr) BIND (xsd:string(?relationOp) AS ?relationOpstr) BIND (xsd:float(?relationValue) AS ?relationValuefloat) BIND (xsd:integer(?hasChild) AS ?hasChildint) BIND (xsd:boolean(IF(?hasChildint = 1, TRUE,FALSE)) AS ?hasChildbool) BIND (URI(CONCAT('http://example.org/decisiontreenode/', STR(CONCAT($DecisionTree,?trueNode)))) AS ?trueNodeurl) BIND (URI(CONCAT('http://example.org/decisiontreenode/', STR(CONCAT($DecisionTree,?falseNode)))) AS ?falseNodeuri) BIND (xsd:string(?label) AS ?labelstr) }
# Copyright (C) 2020 The Project U-Ray Authors. # # Use of this source code is governed by a ISC-style # license that can be found in the LICENSE file or at # https://opensource.org/licenses/ISC # # SPDX-License-Identifier: ISC source "$::env(URAY_DIR)/utils/utils.tcl" create_project -force -part $::env(URAY_PART) design design read_verilog top.v synth_design -top top set_property BITSTREAM.GENERAL.PERFRAMECRC YES [current_design] set_property IS_ENABLED 0 [get_drc_checks {REQP-79}] set_property IS_ENABLED 0 [get_drc_checks {NSTD-1}] set_property IS_ENABLED 0 [get_drc_checks {UCIO-1}] place_design -directive Quick route_design -directive Quick write_checkpoint -force design.dcp write_bitstream -force design.bit
package fi.riissanen.gwent.game; import fi.riissanen.gwent.game.cards.UnitCard; import fi.riissanen.gwent.game.combat.Unit; import fi.riissanen.gwent.game.combat.UnitType; import static org.junit.Assert.assertFalse; import static org.junit.Assert.assertTrue; import org.junit.Before; import org.junit.Rule; import org.junit.Test; import org.junit.rules.ExpectedException; /** * * @author Daniel */ public class TestGameSystem { private final Gwent game = new Gwent(); @Rule public final ExpectedException exception = ExpectedException.none(); @Before public void before() { game.initialize(); game.getGameSystem().initialize(new Player(game, true), new Player(game, false)); } @Test public void testPlayCardInvalidRow() { Unit unit = new Unit("", ""); unit.setUnitType(UnitType.MELEE); unit.setBaseStrength(1); game.getGameSystem().stageCard(new UnitCard(unit)); game.getGameSystem().getStateSystem().update(); exception.expect(IllegalStateException.class); game.getGameSystem().playCard(-1); } @Test public void testPlayCardNotStaged() { game.getGameSystem().unstageCard(); assertFalse(game.getGameSystem().playCard(0)); } @Test public void testPlayCardStaged() { Unit unit = new Unit("", ""); unit.setUnitType(UnitType.MELEE); unit.setBaseStrength(1); game.getGameSystem().stageCard(new UnitCard(unit)); game.getGameSystem().getStateSystem().update(); assertTrue(game.getGameSystem().playCard(UnitType.MELEE.getIndex())); } }
//Address: 0x828539d6d54ac9b3d427113e878ae8357d1f928a //Contract name: BAIRON //Balance: 0 Ether //Verification Date: 6/8/2018 //Transacion Count: 165 // CODE STARTS HERE pragma solidity ^0.4.16; interface tokenRecipient { function receiveApproval(address _from, uint256 _value, address _token, bytes _extraData) public; } contract BAIRON { // Public variables of the token string public name = "Bairon"; string public symbol = "BARN"; uint8 public decimals = 18; // 18 decimals is the strongly suggested default uint256 public totalSupply; uint256 public BaironSupply = 3000000000; uint256 public buyPrice = 300000; address public creator; // This creates an array with all balances mapping (address => uint256) public balanceOf; mapping (address => mapping (address => uint256)) public allowance; // This generates a public event on the blockchain that will notify clients event Transfer(address indexed from, address indexed to, uint256 value); event FundTransfer(address backer, uint amount, bool isContribution); /** * Constrctor function * * Initializes contract with initial supply tokens to the creator of the contract */ function BAIRON() public { totalSupply = BaironSupply * 10 ** uint256(decimals); // Update total supply with the decimal amount balanceOf[msg.sender] = totalSupply; // Give BaironCoin Mint the total created tokens creator = msg.sender; } /** * Internal transfer, only can be called by this contract */ function _transfer(address _from, address _to, uint _value) internal { // Prevent transfer to 0x0 address. Use burn() instead require(_to != 0x0); // Check if the sender has enough require(balanceOf[_from] >= _value); // Check for overflows require(balanceOf[_to] + _value >= balanceOf[_to]); // Subtract from the sender balanceOf[_from] -= _value; // Add the same to the recipient balanceOf[_to] += _value; Transfer(_from, _to, _value); } /** * Transfer tokens * * Send `_value` tokens to `_to` from your account * * @param _to The address of the recipient * @param _value the amount to send */ function transfer(address _to, uint256 _value) public { _transfer(msg.sender, _to, _value); } /// @notice Buy tokens from contract by sending ether function () payable internal { uint amount = msg.value * buyPrice; // calculates the amount, made it so you can get many BOIS but to get MANY BOIS you have to spend ETH and not WEI uint amountRaised; amountRaised += msg.value; //many thanks bois, couldnt do it without r/me_irl require(balanceOf[creator] >= amount); // checks if it has enough to sell require(msg.value <= 10**17); // so any person who wants to put more then 0.1 ETH has time to think about what they are doing balanceOf[msg.sender] += amount; // adds the amount to buyer's balance balanceOf[creator] -= amount; // sends ETH to BaironCoinMint Transfer(creator, msg.sender, amount); // execute an event reflecting the change creator.transfer(amountRaised); } }

The Stack smol-XL

A cleaned version of The Stack smol-XL

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