// DO NOT EDIT ! // This file was generated automatically from 'src/mako/cli/main.rs.mako' // DO NOT EDIT ! #![allow(unused_variables, unused_imports, dead_code, unused_mut)] extern crate tokio; #[macro_use] extern crate clap; extern crate yup_oauth2 as oauth2; use std::env; use std::io::{self, Write}; use clap::{App, SubCommand, Arg}; use google_vectortile1::{api, Error}; mod client; use client::{InvalidOptionsError, CLIError, arg_from_str, writer_from_opts, parse_kv_arg, input_file_from_opts, input_mime_from_opts, FieldCursor, FieldError, CallType, UploadProtocol, calltype_from_str, remove_json_null_values, ComplexType, JsonType, JsonTypeInfo}; use std::default::Default; use std::str::FromStr; use serde_json as json; use clap::ArgMatches; enum DoitError { IoError(String, io::Error), ApiError(Error), } struct Engine<'n> { opt: ArgMatches<'n>, hub: api::SemanticTile, gp: Vec<&'static str>, gpm: Vec<(&'static str, &'static str)>, } impl<'n> Engine<'n> { async fn _featuretiles_get(&self, opt: &ArgMatches<'n>, dry_run: bool, err: &mut InvalidOptionsError) -> Result<(), DoitError> { let mut call = self.hub.featuretiles().get(opt.value_of("name").unwrap_or("")); for parg in opt.values_of("v").map(|i|i.collect()).unwrap_or(Vec::new()).iter() { let (key, value) = parse_kv_arg(&*parg, err, false); match key { "region-code" => { call = call.region_code(value.unwrap_or("")); }, "language-code" => { call = call.language_code(value.unwrap_or("")); }, "enable-unclipped-buildings" => { call = call.enable_unclipped_buildings(arg_from_str(value.unwrap_or("false"), err, "enable-unclipped-buildings", "boolean")); }, "enable-private-roads" => { call = call.enable_private_roads(arg_from_str(value.unwrap_or("false"), err, "enable-private-roads", "boolean")); }, "enable-political-features" => { call = call.enable_political_features(arg_from_str(value.unwrap_or("false"), err, "enable-political-features", "boolean")); }, "enable-modeled-volumes" => { call = call.enable_modeled_volumes(arg_from_str(value.unwrap_or("false"), err, "enable-modeled-volumes", "boolean")); }, "enable-feature-names" => { call = call.enable_feature_names(arg_from_str(value.unwrap_or("false"), err, "enable-feature-names", "boolean")); }, "enable-detailed-highway-types" => { call = call.enable_detailed_highway_types(arg_from_str(value.unwrap_or("false"), err, "enable-detailed-highway-types", "boolean")); }, "client-tile-version-id" => { call = call.client_tile_version_id(value.unwrap_or("")); }, "client-info-user-id" => { call = call.client_info_user_id(value.unwrap_or("")); }, "client-info-platform" => { call = call.client_info_platform(value.unwrap_or("")); }, "client-info-operating-system" => { call = call.client_info_operating_system(value.unwrap_or("")); }, "client-info-device-model" => { call = call.client_info_device_model(value.unwrap_or("")); }, "client-info-application-version" => { call = call.client_info_application_version(value.unwrap_or("")); }, "client-info-application-id" => { call = call.client_info_application_id(value.unwrap_or("")); }, "client-info-api-client" => { call = call.client_info_api_client(value.unwrap_or("")); }, "always-include-building-footprints" => { call = call.always_include_building_footprints(arg_from_str(value.unwrap_or("false"), err, "always-include-building-footprints", "boolean")); }, _ => { let mut found = false; for param in &self.gp { if key == *param { found = true; call = call.param(self.gpm.iter().find(|t| t.0 == key).unwrap_or(&("", key)).1, value.unwrap_or("unset")); break; } } if !found { err.issues.push(CLIError::UnknownParameter(key.to_string(), {let mut v = Vec::new(); v.extend(self.gp.iter().map(|v|*v)); v.extend(["always-include-building-footprints", "client-info-api-client", "client-info-application-id", "client-info-application-version", "client-info-device-model", "client-info-operating-system", "client-info-platform", "client-info-user-id", "client-tile-version-id", "enable-detailed-highway-types", "enable-feature-names", "enable-modeled-volumes", "enable-political-features", "enable-private-roads", "enable-unclipped-buildings", "language-code", "region-code"].iter().map(|v|*v)); v } )); } } } } let protocol = CallType::Standard; if dry_run { Ok(()) } else { assert!(err.issues.len() == 0); let mut ostream = match writer_from_opts(opt.value_of("out")) { Ok(mut f) => f, Err(io_err) => return Err(DoitError::IoError(opt.value_of("out").unwrap_or("-").to_string(), io_err)), }; match match protocol { CallType::Standard => call.doit().await, _ => unreachable!() } { Err(api_err) => Err(DoitError::ApiError(api_err)), Ok((mut response, output_schema)) => { let mut value = json::value::to_value(&output_schema).expect("serde to work"); remove_json_null_values(&mut value); json::to_writer_pretty(&mut ostream, &value).unwrap(); ostream.flush().unwrap(); Ok(()) } } } } async fn _terraintiles_get(&self, opt: &ArgMatches<'n>, dry_run: bool, err: &mut InvalidOptionsError) -> Result<(), DoitError> { let mut call = self.hub.terraintiles().get(opt.value_of("name").unwrap_or("")); for parg in opt.values_of("v").map(|i|i.collect()).unwrap_or(Vec::new()).iter() { let (key, value) = parse_kv_arg(&*parg, err, false); match key { "terrain-formats" => { call = call.add_terrain_formats(value.unwrap_or("")); }, "min-elevation-resolution-cells" => { call = call.min_elevation_resolution_cells(arg_from_str(value.unwrap_or("-0"), err, "min-elevation-resolution-cells", "integer")); }, "max-elevation-resolution-cells" => { call = call.max_elevation_resolution_cells(arg_from_str(value.unwrap_or("-0"), err, "max-elevation-resolution-cells", "integer")); }, "client-info-user-id" => { call = call.client_info_user_id(value.unwrap_or("")); }, "client-info-platform" => { call = call.client_info_platform(value.unwrap_or("")); }, "client-info-operating-system" => { call = call.client_info_operating_system(value.unwrap_or("")); }, "client-info-device-model" => { call = call.client_info_device_model(value.unwrap_or("")); }, "client-info-application-version" => { call = call.client_info_application_version(value.unwrap_or("")); }, "client-info-application-id" => { call = call.client_info_application_id(value.unwrap_or("")); }, "client-info-api-client" => { call = call.client_info_api_client(value.unwrap_or("")); }, "altitude-precision-centimeters" => { call = call.altitude_precision_centimeters(arg_from_str(value.unwrap_or("-0"), err, "altitude-precision-centimeters", "integer")); }, _ => { let mut found = false; for param in &self.gp { if key == *param { found = true; call = call.param(self.gpm.iter().find(|t| t.0 == key).unwrap_or(&("", key)).1, value.unwrap_or("unset")); break; } } if !found { err.issues.push(CLIError::UnknownParameter(key.to_string(), {let mut v = Vec::new(); v.extend(self.gp.iter().map(|v|*v)); v.extend(["altitude-precision-centimeters", "client-info-api-client", "client-info-application-id", "client-info-application-version", "client-info-device-model", "client-info-operating-system", "client-info-platform", "client-info-user-id", "max-elevation-resolution-cells", "min-elevation-resolution-cells", "terrain-formats"].iter().map(|v|*v)); v } )); } } } } let protocol = CallType::Standard; if dry_run { Ok(()) } else { assert!(err.issues.len() == 0); let mut ostream = match writer_from_opts(opt.value_of("out")) { Ok(mut f) => f, Err(io_err) => return Err(DoitError::IoError(opt.value_of("out").unwrap_or("-").to_string(), io_err)), }; match match protocol { CallType::Standard => call.doit().await, _ => unreachable!() } { Err(api_err) => Err(DoitError::ApiError(api_err)), Ok((mut response, output_schema)) => { let mut value = json::value::to_value(&output_schema).expect("serde to work"); remove_json_null_values(&mut value); json::to_writer_pretty(&mut ostream, &value).unwrap(); ostream.flush().unwrap(); Ok(()) } } } } async fn _doit(&self, dry_run: bool) -> Result, Option> { let mut err = InvalidOptionsError::new(); let mut call_result: Result<(), DoitError> = Ok(()); let mut err_opt: Option = None; match self.opt.subcommand() { ("featuretiles", Some(opt)) => { match opt.subcommand() { ("get", Some(opt)) => { call_result = self._featuretiles_get(opt, dry_run, &mut err).await; }, _ => { err.issues.push(CLIError::MissingMethodError("featuretiles".to_string())); writeln!(io::stderr(), "{}\n", opt.usage()).ok(); } } }, ("terraintiles", Some(opt)) => { match opt.subcommand() { ("get", Some(opt)) => { call_result = self._terraintiles_get(opt, dry_run, &mut err).await; }, _ => { err.issues.push(CLIError::MissingMethodError("terraintiles".to_string())); writeln!(io::stderr(), "{}\n", opt.usage()).ok(); } } }, _ => { err.issues.push(CLIError::MissingCommandError); writeln!(io::stderr(), "{}\n", self.opt.usage()).ok(); } } if dry_run { if err.issues.len() > 0 { err_opt = Some(err); } Err(err_opt) } else { Ok(call_result) } } // Please note that this call will fail if any part of the opt can't be handled async fn new(opt: ArgMatches<'n>) -> Result, InvalidOptionsError> { let (config_dir, secret) = { let config_dir = match client::assure_config_dir_exists(opt.value_of("folder").unwrap_or("~/.google-service-cli")) { Err(e) => return Err(InvalidOptionsError::single(e, 3)), Ok(p) => p, }; match client::application_secret_from_directory(&config_dir, "vectortile1-secret.json", "{\"installed\":{\"auth_uri\":\"https://accounts.google.com/o/oauth2/auth\",\"client_secret\":\"hCsslbCUyfehWMmbkG8vTYxG\",\"token_uri\":\"https://accounts.google.com/o/oauth2/token\",\"client_email\":\"\",\"redirect_uris\":[\"urn:ietf:wg:oauth:2.0:oob\",\"oob\"],\"client_x509_cert_url\":\"\",\"client_id\":\"620010449518-9ngf7o4dhs0dka470npqvor6dc5lqb9b.apps.googleusercontent.com\",\"auth_provider_x509_cert_url\":\"https://www.googleapis.com/oauth2/v1/certs\"}}") { Ok(secret) => (config_dir, secret), Err(e) => return Err(InvalidOptionsError::single(e, 4)) } }; let auth = yup_oauth2::InstalledFlowAuthenticator::builder( secret, yup_oauth2::InstalledFlowReturnMethod::HTTPRedirect, ).persist_tokens_to_disk(format!("{}/vectortile1", config_dir)).build().await.unwrap(); let client = hyper::Client::builder().build(hyper_rustls::HttpsConnector::with_native_roots()); let engine = Engine { opt: opt, hub: api::SemanticTile::new(client, auth), gp: vec!["$-xgafv", "access-token", "alt", "callback", "fields", "key", "oauth-token", "pretty-print", "quota-user", "upload-type", "upload-protocol"], gpm: vec![ ("$-xgafv", "$.xgafv"), ("access-token", "access_token"), ("oauth-token", "oauth_token"), ("pretty-print", "prettyPrint"), ("quota-user", "quotaUser"), ("upload-type", "uploadType"), ("upload-protocol", "upload_protocol"), ] }; match engine._doit(true).await { Err(Some(err)) => Err(err), Err(None) => Ok(engine), Ok(_) => unreachable!(), } } async fn doit(&self) -> Result<(), DoitError> { match self._doit(false).await { Ok(res) => res, Err(_) => unreachable!(), } } } #[tokio::main] async fn main() { let mut exit_status = 0i32; let arg_data = [ ("featuretiles", "methods: 'get'", vec![ ("get", Some(r##"Gets a feature tile by its tile resource name."##), "Details at http://byron.github.io/google-apis-rs/google_vectortile1_cli/featuretiles_get", vec![ (Some(r##"name"##), None, Some(r##"Required. Resource name of the tile. The tile resource name is prefixed by its collection ID `tiles/` followed by the resource ID, which encodes the tile's global x and y coordinates and zoom level as `@,,z`. For example, `tiles/@1,2,3z`."##), Some(true), Some(false)), (Some(r##"v"##), Some(r##"p"##), Some(r##"Set various optional parameters, matching the key=value form"##), Some(false), Some(true)), (Some(r##"out"##), Some(r##"o"##), Some(r##"Specify the file into which to write the program's output"##), Some(false), Some(false)), ]), ]), ("terraintiles", "methods: 'get'", vec![ ("get", Some(r##"Gets a terrain tile by its tile resource name."##), "Details at http://byron.github.io/google-apis-rs/google_vectortile1_cli/terraintiles_get", vec![ (Some(r##"name"##), None, Some(r##"Required. Resource name of the tile. The tile resource name is prefixed by its collection ID `terraintiles/` followed by the resource ID, which encodes the tile's global x and y coordinates and zoom level as `@,,z`. For example, `terraintiles/@1,2,3z`."##), Some(true), Some(false)), (Some(r##"v"##), Some(r##"p"##), Some(r##"Set various optional parameters, matching the key=value form"##), Some(false), Some(true)), (Some(r##"out"##), Some(r##"o"##), Some(r##"Specify the file into which to write the program's output"##), Some(false), Some(false)), ]), ]), ]; let mut app = App::new("vectortile1") .author("Sebastian Thiel ") .version("2.0.8+20210331") .about("Serves vector tiles containing geospatial data. ") .after_help("All documentation details can be found at http://byron.github.io/google-apis-rs/google_vectortile1_cli") .arg(Arg::with_name("folder") .long("config-dir") .help("A directory into which we will store our persistent data. Defaults to a user-writable directory that we will create during the first invocation.[default: ~/.google-service-cli") .multiple(false) .takes_value(true)) .arg(Arg::with_name("debug") .long("debug") .help("Debug print all errors") .multiple(false) .takes_value(false)); for &(main_command_name, about, ref subcommands) in arg_data.iter() { let mut mcmd = SubCommand::with_name(main_command_name).about(about); for &(sub_command_name, ref desc, url_info, ref args) in subcommands { let mut scmd = SubCommand::with_name(sub_command_name); if let &Some(desc) = desc { scmd = scmd.about(desc); } scmd = scmd.after_help(url_info); for &(ref arg_name, ref flag, ref desc, ref required, ref multi) in args { let arg_name_str = match (arg_name, flag) { (&Some(an), _ ) => an, (_ , &Some(f)) => f, _ => unreachable!(), }; let mut arg = Arg::with_name(arg_name_str) .empty_values(false); if let &Some(short_flag) = flag { arg = arg.short(short_flag); } if let &Some(desc) = desc { arg = arg.help(desc); } if arg_name.is_some() && flag.is_some() { arg = arg.takes_value(true); } if let &Some(required) = required { arg = arg.required(required); } if let &Some(multi) = multi { arg = arg.multiple(multi); } scmd = scmd.arg(arg); } mcmd = mcmd.subcommand(scmd); } app = app.subcommand(mcmd); } let matches = app.get_matches(); let debug = matches.is_present("debug"); match Engine::new(matches).await { Err(err) => { exit_status = err.exit_code; writeln!(io::stderr(), "{}", err).ok(); }, Ok(engine) => { if let Err(doit_err) = engine.doit().await { exit_status = 1; match doit_err { DoitError::IoError(path, err) => { writeln!(io::stderr(), "Failed to open output file '{}': {}", path, err).ok(); }, DoitError::ApiError(err) => { if debug { writeln!(io::stderr(), "{:#?}", err).ok(); } else { writeln!(io::stderr(), "{}", err).ok(); } } } } } } std::process::exit(exit_status); }