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# Directory Structure
```
├── .env.example
├── .eslintignore
├── .eslintrc.cjs
├── .eslintrc.js
├── .gitignore
├── .prettierignore
├── .prettierrc
├── .prettierrc.json
├── CHANGELOG.md
├── config
│ ├── default.json
│ ├── development.json
│ ├── production.json
│ └── schema.json
├── config.json
├── CONTRIBUTING.md
├── debug-stdio.cjs
├── debug-stdio.js
├── deploy
│ ├── cloudflare
│ │ ├── .gitkeep
│ │ ├── README.md
│ │ └── wrangler.toml
│ ├── docker
│ │ ├── .gitkeep
│ │ ├── docker-compose.yml
│ │ ├── Dockerfile
│ │ └── entrypoint.sh
│ ├── koyeb
│ │ ├── .gitkeep
│ │ └── koyeb.yaml
│ └── README.md
├── docker-compose.yml
├── Dockerfile
├── docs
│ ├── .DS_Store
│ ├── .vitepress
│ │ ├── cache
│ │ │ └── deps
│ │ │ ├── _metadata.json
│ │ │ ├── chunk-HVR2FF6M.js
│ │ │ ├── chunk-HVR2FF6M.js.map
│ │ │ ├── chunk-P2XGSYO7.js
│ │ │ ├── chunk-P2XGSYO7.js.map
│ │ │ ├── package.json
│ │ │ ├── vitepress___@vue_devtools-api.js
│ │ │ ├── vitepress___@vue_devtools-api.js.map
│ │ │ ├── vitepress___@vueuse_core.js
│ │ │ ├── vitepress___@vueuse_core.js.map
│ │ │ ├── vitepress___@vueuse_integrations_useFocusTrap.js
│ │ │ ├── vitepress___@vueuse_integrations_useFocusTrap.js.map
│ │ │ ├── vitepress___mark__js_src_vanilla__js.js
│ │ │ ├── vitepress___mark__js_src_vanilla__js.js.map
│ │ │ ├── vitepress___minisearch.js
│ │ │ ├── vitepress___minisearch.js.map
│ │ │ ├── vue.js
│ │ │ └── vue.js.map
│ │ ├── config.ts
│ │ ├── dist
│ │ │ ├── 404.html
│ │ │ ├── advanced
│ │ │ │ ├── extensibility.html
│ │ │ │ ├── index.html
│ │ │ │ ├── monitoring.html
│ │ │ │ ├── performance.html
│ │ │ │ └── security.html
│ │ │ ├── api
│ │ │ │ ├── index.html
│ │ │ │ └── README.html
│ │ │ ├── assets
│ │ │ │ ├── advanced_extensibility.md.TrXUn5w5.js
│ │ │ │ ├── advanced_extensibility.md.TrXUn5w5.lean.js
│ │ │ │ ├── advanced_index.md.CPcpUlw_.js
│ │ │ │ ├── advanced_index.md.CPcpUlw_.lean.js
│ │ │ │ ├── advanced_monitoring.md.DTybdNg-.js
│ │ │ │ ├── advanced_monitoring.md.DTybdNg-.lean.js
│ │ │ │ ├── advanced_performance.md.DKmzK0ia.js
│ │ │ │ ├── advanced_performance.md.DKmzK0ia.lean.js
│ │ │ │ ├── advanced_security.md.B-oBD7IB.js
│ │ │ │ ├── advanced_security.md.B-oBD7IB.lean.js
│ │ │ │ ├── api_index.md.Dl1JB08_.js
│ │ │ │ ├── api_index.md.Dl1JB08_.lean.js
│ │ │ │ ├── chunks
│ │ │ │ │ └── framework.CHl2ywxc.js
│ │ │ │ ├── configuration_environment-variables.md.Ddy3P_Wz.js
│ │ │ │ ├── configuration_environment-variables.md.Ddy3P_Wz.lean.js
│ │ │ │ ├── configuration_environment.md.DxcTQ623.js
│ │ │ │ ├── configuration_environment.md.DxcTQ623.lean.js
│ │ │ │ ├── configuration_overview.md.DIkVDv7V.js
│ │ │ │ ├── configuration_overview.md.DIkVDv7V.lean.js
│ │ │ │ ├── configuration_performance.md.DbJdmLrW.js
│ │ │ │ ├── configuration_performance.md.DbJdmLrW.lean.js
│ │ │ │ ├── configuration_reference.md.27IKWqtk.js
│ │ │ │ ├── configuration_reference.md.27IKWqtk.lean.js
│ │ │ │ ├── configuration_security.md.-OOlkzN4.js
│ │ │ │ ├── configuration_security.md.-OOlkzN4.lean.js
│ │ │ │ ├── contributing_dev-setup.md.Ceqh4w-R.js
│ │ │ │ ├── contributing_dev-setup.md.Ceqh4w-R.lean.js
│ │ │ │ ├── contributing_guidelines.md.ZEAX2yVh.js
│ │ │ │ ├── contributing_guidelines.md.ZEAX2yVh.lean.js
│ │ │ │ ├── contributing_index.md.DYq9R6wr.js
│ │ │ │ ├── contributing_index.md.DYq9R6wr.lean.js
│ │ │ │ ├── contributing_maintenance.md.k2bR0IaR.js
│ │ │ │ ├── contributing_maintenance.md.k2bR0IaR.lean.js
│ │ │ │ ├── deployment_cicd.md.Ci2T0UYC.js
│ │ │ │ ├── deployment_cicd.md.Ci2T0UYC.lean.js
│ │ │ │ ├── deployment_cloudflare-workers.md.D2WHsfep.js
│ │ │ │ ├── deployment_cloudflare-workers.md.D2WHsfep.lean.js
│ │ │ │ ├── deployment_docker.md.B8bQDQTo.js
│ │ │ │ ├── deployment_docker.md.B8bQDQTo.lean.js
│ │ │ │ ├── deployment_index.md.ClYeOkpy.js
│ │ │ │ ├── deployment_index.md.ClYeOkpy.lean.js
│ │ │ │ ├── deployment_koyeb.md.B_wJhvF7.js
│ │ │ │ ├── deployment_koyeb.md.B_wJhvF7.lean.js
│ │ │ │ ├── examples_advanced-routing.md.B3CqhLZ7.js
│ │ │ │ ├── examples_advanced-routing.md.B3CqhLZ7.lean.js
│ │ │ │ ├── examples_basic-node.md.CaDZzGlO.js
│ │ │ │ ├── examples_basic-node.md.CaDZzGlO.lean.js
│ │ │ │ ├── examples_cloudflare-worker.md.DwVSz-c7.js
│ │ │ │ ├── examples_cloudflare-worker.md.DwVSz-c7.lean.js
│ │ │ │ ├── examples_index.md.CBF_BLkl.js
│ │ │ │ ├── examples_index.md.CBF_BLkl.lean.js
│ │ │ │ ├── examples_oauth-delegation.md.1hZxoqDl.js
│ │ │ │ ├── examples_oauth-delegation.md.1hZxoqDl.lean.js
│ │ │ │ ├── examples_overview.md.CZN0JbZ7.js
│ │ │ │ ├── examples_overview.md.CZN0JbZ7.lean.js
│ │ │ │ ├── examples_testing.md.Dek4GpNs.js
│ │ │ │ ├── examples_testing.md.Dek4GpNs.lean.js
│ │ │ │ ├── getting-started_concepts.md.D7ON9iGB.js
│ │ │ │ ├── getting-started_concepts.md.D7ON9iGB.lean.js
│ │ │ │ ├── getting-started_installation.md.BKnVqAGg.js
│ │ │ │ ├── getting-started_installation.md.BKnVqAGg.lean.js
│ │ │ │ ├── getting-started_overview.md.DvJDFL2N.js
│ │ │ │ ├── getting-started_overview.md.DvJDFL2N.lean.js
│ │ │ │ ├── getting-started_quickstart-node.md.GOO4aGas.js
│ │ │ │ ├── getting-started_quickstart-node.md.GOO4aGas.lean.js
│ │ │ │ ├── getting-started_quickstart-workers.md.Cpofh8Mj.js
│ │ │ │ ├── getting-started_quickstart-workers.md.Cpofh8Mj.lean.js
│ │ │ │ ├── getting-started.md.DG9ndneo.js
│ │ │ │ ├── getting-started.md.DG9ndneo.lean.js
│ │ │ │ ├── guides_configuration-management.md.B-jwYMbA.js
│ │ │ │ ├── guides_configuration-management.md.B-jwYMbA.lean.js
│ │ │ │ ├── guides_configuration.md.Ci3zYDFA.js
│ │ │ │ ├── guides_configuration.md.Ci3zYDFA.lean.js
│ │ │ │ ├── guides_index.md.CIlq2fmx.js
│ │ │ │ ├── guides_index.md.CIlq2fmx.lean.js
│ │ │ │ ├── guides_module-loading.md.BkJvuRnQ.js
│ │ │ │ ├── guides_module-loading.md.BkJvuRnQ.lean.js
│ │ │ │ ├── guides_oauth-delegation.md.DEOZ-_G0.js
│ │ │ │ ├── guides_oauth-delegation.md.DEOZ-_G0.lean.js
│ │ │ │ ├── guides_request-routing.md.Bdzf0VLg.js
│ │ │ │ ├── guides_request-routing.md.Bdzf0VLg.lean.js
│ │ │ │ ├── guides_testing.md.kYfHqJLu.js
│ │ │ │ ├── guides_testing.md.kYfHqJLu.lean.js
│ │ │ │ ├── inter-italic-cyrillic-ext.r48I6akx.woff2
│ │ │ │ ├── inter-italic-cyrillic.By2_1cv3.woff2
│ │ │ │ ├── inter-italic-greek-ext.1u6EdAuj.woff2
│ │ │ │ ├── inter-italic-greek.DJ8dCoTZ.woff2
│ │ │ │ ├── inter-italic-latin-ext.CN1xVJS-.woff2
│ │ │ │ ├── inter-italic-latin.C2AdPX0b.woff2
│ │ │ │ ├── inter-italic-vietnamese.BSbpV94h.woff2
│ │ │ │ ├── inter-roman-cyrillic-ext.BBPuwvHQ.woff2
│ │ │ │ ├── inter-roman-cyrillic.C5lxZ8CY.woff2
│ │ │ │ ├── inter-roman-greek-ext.CqjqNYQ-.woff2
│ │ │ │ ├── inter-roman-greek.BBVDIX6e.woff2
│ │ │ │ ├── inter-roman-latin-ext.4ZJIpNVo.woff2
│ │ │ │ ├── inter-roman-latin.Di8DUHzh.woff2
│ │ │ │ ├── inter-roman-vietnamese.BjW4sHH5.woff2
│ │ │ │ ├── README.md.BO5r5M9u.js
│ │ │ │ ├── README.md.BO5r5M9u.lean.js
│ │ │ │ ├── style.BQrfSMzK.css
│ │ │ │ ├── troubleshooting_common-issues.md.CScvzWM1.js
│ │ │ │ ├── troubleshooting_common-issues.md.CScvzWM1.lean.js
│ │ │ │ ├── troubleshooting_deployment.md.DUhpqnLE.js
│ │ │ │ ├── troubleshooting_deployment.md.DUhpqnLE.lean.js
│ │ │ │ ├── troubleshooting_errors.md.BSCsEmGc.js
│ │ │ │ ├── troubleshooting_errors.md.BSCsEmGc.lean.js
│ │ │ │ ├── troubleshooting_oauth.md.Cw60Eka3.js
│ │ │ │ ├── troubleshooting_oauth.md.Cw60Eka3.lean.js
│ │ │ │ ├── troubleshooting_performance.md.DxY6LJcT.js
│ │ │ │ ├── troubleshooting_performance.md.DxY6LJcT.lean.js
│ │ │ │ ├── troubleshooting_routing.md.BHN-MDhs.js
│ │ │ │ ├── troubleshooting_routing.md.BHN-MDhs.lean.js
│ │ │ │ ├── troubleshooting_security-best-practices.md.Yiu8E-zt.js
│ │ │ │ ├── troubleshooting_security-best-practices.md.Yiu8E-zt.lean.js
│ │ │ │ ├── tutorials_beginner-getting-started.md.BXObgobW.js
│ │ │ │ ├── tutorials_beginner-getting-started.md.BXObgobW.lean.js
│ │ │ │ ├── tutorials_cloudflare-workers-tutorial.md.MPHsc0aT.js
│ │ │ │ ├── tutorials_cloudflare-workers-tutorial.md.MPHsc0aT.lean.js
│ │ │ │ ├── tutorials_load-balancing-and-resilience.md.Dv9r9jyW.js
│ │ │ │ ├── tutorials_load-balancing-and-resilience.md.Dv9r9jyW.lean.js
│ │ │ │ ├── tutorials_oauth-delegation-github.md.Nq4glqCe.js
│ │ │ │ └── tutorials_oauth-delegation-github.md.Nq4glqCe.lean.js
│ │ │ ├── configuration
│ │ │ │ ├── environment-variables.html
│ │ │ │ ├── environment.html
│ │ │ │ ├── examples.html
│ │ │ │ ├── overview.html
│ │ │ │ ├── performance.html
│ │ │ │ ├── reference.html
│ │ │ │ └── security.html
│ │ │ ├── contributing
│ │ │ │ ├── dev-setup.html
│ │ │ │ ├── guidelines.html
│ │ │ │ ├── index.html
│ │ │ │ └── maintenance.html
│ │ │ ├── deployment
│ │ │ │ ├── cicd.html
│ │ │ │ ├── cloudflare-workers.html
│ │ │ │ ├── docker.html
│ │ │ │ ├── index.html
│ │ │ │ └── koyeb.html
│ │ │ ├── diagrams
│ │ │ │ └── architecture.svg
│ │ │ ├── examples
│ │ │ │ ├── advanced-routing.html
│ │ │ │ ├── basic-node.html
│ │ │ │ ├── cloudflare-worker.html
│ │ │ │ ├── index.html
│ │ │ │ ├── oauth-delegation.html
│ │ │ │ ├── overview.html
│ │ │ │ └── testing.html
│ │ │ ├── getting-started
│ │ │ │ ├── concepts.html
│ │ │ │ ├── installation.html
│ │ │ │ ├── overview.html
│ │ │ │ ├── quick-start.html
│ │ │ │ ├── quickstart-node.html
│ │ │ │ └── quickstart-workers.html
│ │ │ ├── getting-started.html
│ │ │ ├── guides
│ │ │ │ ├── authentication.html
│ │ │ │ ├── client-integration.html
│ │ │ │ ├── configuration-management.html
│ │ │ │ ├── configuration.html
│ │ │ │ ├── index.html
│ │ │ │ ├── module-loading.html
│ │ │ │ ├── oauth-delegation.html
│ │ │ │ ├── request-routing.html
│ │ │ │ ├── server-management.html
│ │ │ │ ├── server-sharing.html
│ │ │ │ └── testing.html
│ │ │ ├── hashmap.json
│ │ │ ├── index.html
│ │ │ ├── logo.svg
│ │ │ ├── README.html
│ │ │ ├── reports
│ │ │ │ └── mcp-compliance-audit.html
│ │ │ ├── troubleshooting
│ │ │ │ ├── common-issues.html
│ │ │ │ ├── deployment.html
│ │ │ │ ├── errors.html
│ │ │ │ ├── index.html
│ │ │ │ ├── oauth.html
│ │ │ │ ├── performance.html
│ │ │ │ ├── routing.html
│ │ │ │ └── security-best-practices.html
│ │ │ ├── tutorials
│ │ │ │ ├── beginner-getting-started.html
│ │ │ │ ├── cloudflare-workers-tutorial.html
│ │ │ │ ├── load-balancing-and-resilience.html
│ │ │ │ └── oauth-delegation-github.html
│ │ │ └── vp-icons.css
│ │ └── theme
│ │ ├── components
│ │ │ ├── ApiPlayground.vue
│ │ │ ├── AuthFlowDemo.vue
│ │ │ ├── CodeTabs.vue
│ │ │ └── ConfigGenerator.vue
│ │ ├── index.ts
│ │ └── style.css
│ ├── advanced
│ │ ├── extensibility.md
│ │ ├── index.md
│ │ ├── monitoring.md
│ │ ├── performance.md
│ │ └── security.md
│ ├── api
│ │ ├── functions
│ │ │ └── createServer.md
│ │ ├── index.md
│ │ ├── interfaces
│ │ │ └── RunningServer.md
│ │ └── README.md
│ ├── architecture
│ │ └── images
│ │ └── mcp_master_architecture.svg
│ ├── configuration
│ │ ├── environment-variables.md
│ │ ├── environment.md
│ │ ├── examples.md
│ │ ├── overview.md
│ │ ├── performance.md
│ │ ├── reference.md
│ │ └── security.md
│ ├── contributing
│ │ ├── dev-setup.md
│ │ ├── guidelines.md
│ │ ├── index.md
│ │ └── maintenance.md
│ ├── deployment
│ │ ├── cicd.md
│ │ ├── cloudflare-workers.md
│ │ ├── docker.md
│ │ ├── docs-site.md
│ │ ├── index.md
│ │ └── koyeb.md
│ ├── examples
│ │ ├── advanced-routing.md
│ │ ├── basic-node.md
│ │ ├── cloudflare-worker.md
│ │ ├── index.md
│ │ ├── oauth-delegation.md
│ │ ├── overview.md
│ │ └── testing.md
│ ├── getting-started
│ │ ├── concepts.md
│ │ ├── installation.md
│ │ ├── overview.md
│ │ ├── quick-start.md
│ │ ├── quickstart-node.md
│ │ └── quickstart-workers.md
│ ├── getting-started.md
│ ├── guides
│ │ ├── authentication.md
│ │ ├── client-integration.md
│ │ ├── configuration-management.md
│ │ ├── configuration.md
│ │ ├── index.md
│ │ ├── module-loading.md
│ │ ├── oauth-delegation.md
│ │ ├── request-routing.md
│ │ ├── server-management.md
│ │ ├── server-sharing.md
│ │ └── testing.md
│ ├── index.html
│ ├── public
│ │ ├── diagrams
│ │ │ └── architecture.svg
│ │ ├── github-social.png
│ │ │ └── image.png
│ │ ├── logo.png
│ │ └── logo.svg
│ ├── README.md
│ ├── stdio-servers.md
│ ├── testing
│ │ └── phase-9-testing-architecture.md
│ ├── troubleshooting
│ │ ├── common-issues.md
│ │ ├── deployment.md
│ │ ├── errors.md
│ │ ├── index.md
│ │ ├── oauth.md
│ │ ├── performance.md
│ │ ├── routing.md
│ │ └── security-best-practices.md
│ └── tutorials
│ ├── beginner-getting-started.md
│ ├── cloudflare-workers-tutorial.md
│ ├── load-balancing-and-resilience.md
│ └── oauth-delegation-github.md
├── examples
│ ├── advanced-routing
│ │ ├── config.yaml
│ │ └── README.md
│ ├── basic-node
│ │ ├── config.yaml
│ │ ├── README.md
│ │ └── server.ts
│ ├── cloudflare-worker
│ │ ├── README.md
│ │ └── worker.ts
│ ├── custom-auth
│ │ ├── config.yaml
│ │ ├── index.ts
│ │ └── README.md
│ ├── multi-server
│ │ ├── config.yaml
│ │ └── README.md
│ ├── oauth-delegation
│ │ └── README.md
│ ├── oauth-node
│ │ ├── config.yaml
│ │ └── README.md
│ ├── performance
│ │ ├── config.yaml
│ │ └── README.md
│ ├── sample-configs
│ │ ├── basic.yaml
│ │ └── simple-setup.yaml
│ ├── security-hardening
│ │ └── README.md
│ ├── stdio-mcp-server.cjs
│ ├── test-mcp-server.js
│ └── test-stdio-server.js
├── LICENSE
├── master-mcp-definition.md
├── package-lock.json
├── package.json
├── README.md
├── reports
│ └── claude_report_20250815_222153.html
├── scripts
│ └── generate-config-docs.ts
├── src
│ ├── auth
│ │ ├── multi-auth-manager.ts
│ │ ├── oauth-providers.ts
│ │ └── token-manager.ts
│ ├── config
│ │ ├── config-loader.ts
│ │ ├── environment-manager.ts
│ │ ├── schema-validator.ts
│ │ └── secret-manager.ts
│ ├── index.ts
│ ├── mcp-server.ts
│ ├── modules
│ │ ├── capability-aggregator.ts
│ │ ├── module-loader.ts
│ │ ├── request-router.ts
│ │ ├── stdio-capability-discovery.ts
│ │ └── stdio-manager.ts
│ ├── oauth
│ │ ├── callback-handler.ts
│ │ ├── flow-controller.ts
│ │ ├── flow-validator.ts
│ │ ├── pkce-manager.ts
│ │ ├── state-manager.ts
│ │ └── web-interface.ts
│ ├── routing
│ │ ├── circuit-breaker.ts
│ │ ├── load-balancer.ts
│ │ ├── retry-handler.ts
│ │ └── route-registry.ts
│ ├── runtime
│ │ ├── node.ts
│ │ └── worker.ts
│ ├── server
│ │ ├── config-manager.ts
│ │ ├── dependency-container.ts
│ │ ├── master-server.ts
│ │ └── protocol-handler.ts
│ ├── types
│ │ ├── auth.ts
│ │ ├── config.ts
│ │ ├── jose-shim.d.ts
│ │ ├── mcp.ts
│ │ └── server.ts
│ └── utils
│ ├── cache.ts
│ ├── crypto.ts
│ ├── dev.ts
│ ├── errors.ts
│ ├── http.ts
│ ├── logger.ts
│ ├── monitoring.ts
│ ├── string.ts
│ ├── time.ts
│ ├── validation.ts
│ └── validators.ts
├── static
│ └── oauth
│ ├── consent.html
│ ├── error.html
│ ├── script.js
│ ├── style.css
│ └── success.html
├── tests
│ ├── _setup
│ │ ├── miniflare.setup.ts
│ │ └── vitest.setup.ts
│ ├── _utils
│ │ ├── log-capture.ts
│ │ ├── mock-fetch.ts
│ │ └── test-server.ts
│ ├── .gitkeep
│ ├── e2e
│ │ ├── flow-controller.express.test.ts
│ │ └── flow-controller.worker.test.ts
│ ├── factories
│ │ ├── configFactory.ts
│ │ ├── mcpFactory.ts
│ │ └── oauthFactory.ts
│ ├── fixtures
│ │ ├── capabilities.json
│ │ └── stdio-server.js
│ ├── integration
│ │ ├── modules.capability-aggregator.test.ts
│ │ ├── modules.module-loader-health.test.ts
│ │ ├── oauth.callback-handler.test.ts
│ │ └── request-router.test.ts
│ ├── mocks
│ │ ├── mcp
│ │ │ └── fake-backend.ts
│ │ └── oauth
│ │ └── mock-oidc-provider.ts
│ ├── perf
│ │ ├── artillery
│ │ │ └── auth-routing.yaml
│ │ └── perf.auth-and-routing.test.ts
│ ├── security
│ │ └── security.oauth-and-input.test.ts
│ ├── servers
│ │ ├── test-auth-simple.js
│ │ ├── test-debug.js
│ │ ├── test-master-mcp.js
│ │ ├── test-mcp-client.js
│ │ ├── test-streaming-both-complete.js
│ │ ├── test-streaming-both-full.js
│ │ ├── test-streaming-both-simple.js
│ │ ├── test-streaming-both.js
│ │ └── test-streaming.js
│ ├── setup
│ │ └── test-setup.ts
│ ├── unit
│ │ ├── auth.multi-auth-manager.test.ts
│ │ ├── auth.token-manager.test.ts
│ │ ├── config.environment-manager.test.ts
│ │ ├── config.schema-validator.test.ts
│ │ ├── config.secret-manager.test.ts
│ │ ├── modules
│ │ │ ├── stdio-capability-discovery.test.ts
│ │ │ └── stdio-manager.test.ts
│ │ ├── modules.route-registry.test.ts
│ │ ├── oauth.pkce-state.test.ts
│ │ ├── routing
│ │ │ └── circuit-breaker.test.ts
│ │ ├── routing.core.test.ts
│ │ ├── stdio-capability-discovery.test.ts
│ │ ├── utils.crypto.test.ts
│ │ ├── utils.logger.test.ts
│ │ └── utils.monitoring.test.ts
│ └── utils
│ ├── fake-express.ts
│ ├── mock-http.ts
│ ├── oauth-mocks.ts
│ └── token-storages.ts
├── tsconfig.base.json
├── tsconfig.json
├── tsconfig.node.json
├── tsconfig.worker.json
├── typedoc.json
├── vitest.config.ts
└── vitest.worker.config.ts
```
# Files
--------------------------------------------------------------------------------
/docs/.vitepress/cache/deps/vitepress___@vueuse_integrations_useFocusTrap.js:
--------------------------------------------------------------------------------
```javascript
import {
notNullish,
toArray,
tryOnScopeDispose,
unrefElement
} from "./chunk-P2XGSYO7.js";
import {
computed,
shallowRef,
toValue,
watch
} from "./chunk-HVR2FF6M.js";
// node_modules/tabbable/dist/index.esm.js
var candidateSelectors = ["input:not([inert])", "select:not([inert])", "textarea:not([inert])", "a[href]:not([inert])", "button:not([inert])", "[tabindex]:not(slot):not([inert])", "audio[controls]:not([inert])", "video[controls]:not([inert])", '[contenteditable]:not([contenteditable="false"]):not([inert])', "details>summary:first-of-type:not([inert])", "details:not([inert])"];
var candidateSelector = candidateSelectors.join(",");
var NoElement = typeof Element === "undefined";
var matches = NoElement ? function() {
} : Element.prototype.matches || Element.prototype.msMatchesSelector || Element.prototype.webkitMatchesSelector;
var getRootNode = !NoElement && Element.prototype.getRootNode ? function(element) {
var _element$getRootNode;
return element === null || element === void 0 ? void 0 : (_element$getRootNode = element.getRootNode) === null || _element$getRootNode === void 0 ? void 0 : _element$getRootNode.call(element);
} : function(element) {
return element === null || element === void 0 ? void 0 : element.ownerDocument;
};
var isInert = function isInert2(node, lookUp) {
var _node$getAttribute;
if (lookUp === void 0) {
lookUp = true;
}
var inertAtt = node === null || node === void 0 ? void 0 : (_node$getAttribute = node.getAttribute) === null || _node$getAttribute === void 0 ? void 0 : _node$getAttribute.call(node, "inert");
var inert = inertAtt === "" || inertAtt === "true";
var result = inert || lookUp && node && isInert2(node.parentNode);
return result;
};
var isContentEditable = function isContentEditable2(node) {
var _node$getAttribute2;
var attValue = node === null || node === void 0 ? void 0 : (_node$getAttribute2 = node.getAttribute) === null || _node$getAttribute2 === void 0 ? void 0 : _node$getAttribute2.call(node, "contenteditable");
return attValue === "" || attValue === "true";
};
var getCandidates = function getCandidates2(el, includeContainer, filter) {
if (isInert(el)) {
return [];
}
var candidates = Array.prototype.slice.apply(el.querySelectorAll(candidateSelector));
if (includeContainer && matches.call(el, candidateSelector)) {
candidates.unshift(el);
}
candidates = candidates.filter(filter);
return candidates;
};
var getCandidatesIteratively = function getCandidatesIteratively2(elements, includeContainer, options) {
var candidates = [];
var elementsToCheck = Array.from(elements);
while (elementsToCheck.length) {
var element = elementsToCheck.shift();
if (isInert(element, false)) {
continue;
}
if (element.tagName === "SLOT") {
var assigned = element.assignedElements();
var content = assigned.length ? assigned : element.children;
var nestedCandidates = getCandidatesIteratively2(content, true, options);
if (options.flatten) {
candidates.push.apply(candidates, nestedCandidates);
} else {
candidates.push({
scopeParent: element,
candidates: nestedCandidates
});
}
} else {
var validCandidate = matches.call(element, candidateSelector);
if (validCandidate && options.filter(element) && (includeContainer || !elements.includes(element))) {
candidates.push(element);
}
var shadowRoot = element.shadowRoot || // check for an undisclosed shadow
typeof options.getShadowRoot === "function" && options.getShadowRoot(element);
var validShadowRoot = !isInert(shadowRoot, false) && (!options.shadowRootFilter || options.shadowRootFilter(element));
if (shadowRoot && validShadowRoot) {
var _nestedCandidates = getCandidatesIteratively2(shadowRoot === true ? element.children : shadowRoot.children, true, options);
if (options.flatten) {
candidates.push.apply(candidates, _nestedCandidates);
} else {
candidates.push({
scopeParent: element,
candidates: _nestedCandidates
});
}
} else {
elementsToCheck.unshift.apply(elementsToCheck, element.children);
}
}
}
return candidates;
};
var hasTabIndex = function hasTabIndex2(node) {
return !isNaN(parseInt(node.getAttribute("tabindex"), 10));
};
var getTabIndex = function getTabIndex2(node) {
if (!node) {
throw new Error("No node provided");
}
if (node.tabIndex < 0) {
if ((/^(AUDIO|VIDEO|DETAILS)$/.test(node.tagName) || isContentEditable(node)) && !hasTabIndex(node)) {
return 0;
}
}
return node.tabIndex;
};
var getSortOrderTabIndex = function getSortOrderTabIndex2(node, isScope) {
var tabIndex = getTabIndex(node);
if (tabIndex < 0 && isScope && !hasTabIndex(node)) {
return 0;
}
return tabIndex;
};
var sortOrderedTabbables = function sortOrderedTabbables2(a, b) {
return a.tabIndex === b.tabIndex ? a.documentOrder - b.documentOrder : a.tabIndex - b.tabIndex;
};
var isInput = function isInput2(node) {
return node.tagName === "INPUT";
};
var isHiddenInput = function isHiddenInput2(node) {
return isInput(node) && node.type === "hidden";
};
var isDetailsWithSummary = function isDetailsWithSummary2(node) {
var r = node.tagName === "DETAILS" && Array.prototype.slice.apply(node.children).some(function(child) {
return child.tagName === "SUMMARY";
});
return r;
};
var getCheckedRadio = function getCheckedRadio2(nodes, form) {
for (var i = 0; i < nodes.length; i++) {
if (nodes[i].checked && nodes[i].form === form) {
return nodes[i];
}
}
};
var isTabbableRadio = function isTabbableRadio2(node) {
if (!node.name) {
return true;
}
var radioScope = node.form || getRootNode(node);
var queryRadios = function queryRadios2(name) {
return radioScope.querySelectorAll('input[type="radio"][name="' + name + '"]');
};
var radioSet;
if (typeof window !== "undefined" && typeof window.CSS !== "undefined" && typeof window.CSS.escape === "function") {
radioSet = queryRadios(window.CSS.escape(node.name));
} else {
try {
radioSet = queryRadios(node.name);
} catch (err) {
console.error("Looks like you have a radio button with a name attribute containing invalid CSS selector characters and need the CSS.escape polyfill: %s", err.message);
return false;
}
}
var checked = getCheckedRadio(radioSet, node.form);
return !checked || checked === node;
};
var isRadio = function isRadio2(node) {
return isInput(node) && node.type === "radio";
};
var isNonTabbableRadio = function isNonTabbableRadio2(node) {
return isRadio(node) && !isTabbableRadio(node);
};
var isNodeAttached = function isNodeAttached2(node) {
var _nodeRoot;
var nodeRoot = node && getRootNode(node);
var nodeRootHost = (_nodeRoot = nodeRoot) === null || _nodeRoot === void 0 ? void 0 : _nodeRoot.host;
var attached = false;
if (nodeRoot && nodeRoot !== node) {
var _nodeRootHost, _nodeRootHost$ownerDo, _node$ownerDocument;
attached = !!((_nodeRootHost = nodeRootHost) !== null && _nodeRootHost !== void 0 && (_nodeRootHost$ownerDo = _nodeRootHost.ownerDocument) !== null && _nodeRootHost$ownerDo !== void 0 && _nodeRootHost$ownerDo.contains(nodeRootHost) || node !== null && node !== void 0 && (_node$ownerDocument = node.ownerDocument) !== null && _node$ownerDocument !== void 0 && _node$ownerDocument.contains(node));
while (!attached && nodeRootHost) {
var _nodeRoot2, _nodeRootHost2, _nodeRootHost2$ownerD;
nodeRoot = getRootNode(nodeRootHost);
nodeRootHost = (_nodeRoot2 = nodeRoot) === null || _nodeRoot2 === void 0 ? void 0 : _nodeRoot2.host;
attached = !!((_nodeRootHost2 = nodeRootHost) !== null && _nodeRootHost2 !== void 0 && (_nodeRootHost2$ownerD = _nodeRootHost2.ownerDocument) !== null && _nodeRootHost2$ownerD !== void 0 && _nodeRootHost2$ownerD.contains(nodeRootHost));
}
}
return attached;
};
var isZeroArea = function isZeroArea2(node) {
var _node$getBoundingClie = node.getBoundingClientRect(), width = _node$getBoundingClie.width, height = _node$getBoundingClie.height;
return width === 0 && height === 0;
};
var isHidden = function isHidden2(node, _ref) {
var displayCheck = _ref.displayCheck, getShadowRoot = _ref.getShadowRoot;
if (getComputedStyle(node).visibility === "hidden") {
return true;
}
var isDirectSummary = matches.call(node, "details>summary:first-of-type");
var nodeUnderDetails = isDirectSummary ? node.parentElement : node;
if (matches.call(nodeUnderDetails, "details:not([open]) *")) {
return true;
}
if (!displayCheck || displayCheck === "full" || displayCheck === "legacy-full") {
if (typeof getShadowRoot === "function") {
var originalNode = node;
while (node) {
var parentElement = node.parentElement;
var rootNode = getRootNode(node);
if (parentElement && !parentElement.shadowRoot && getShadowRoot(parentElement) === true) {
return isZeroArea(node);
} else if (node.assignedSlot) {
node = node.assignedSlot;
} else if (!parentElement && rootNode !== node.ownerDocument) {
node = rootNode.host;
} else {
node = parentElement;
}
}
node = originalNode;
}
if (isNodeAttached(node)) {
return !node.getClientRects().length;
}
if (displayCheck !== "legacy-full") {
return true;
}
} else if (displayCheck === "non-zero-area") {
return isZeroArea(node);
}
return false;
};
var isDisabledFromFieldset = function isDisabledFromFieldset2(node) {
if (/^(INPUT|BUTTON|SELECT|TEXTAREA)$/.test(node.tagName)) {
var parentNode = node.parentElement;
while (parentNode) {
if (parentNode.tagName === "FIELDSET" && parentNode.disabled) {
for (var i = 0; i < parentNode.children.length; i++) {
var child = parentNode.children.item(i);
if (child.tagName === "LEGEND") {
return matches.call(parentNode, "fieldset[disabled] *") ? true : !child.contains(node);
}
}
return true;
}
parentNode = parentNode.parentElement;
}
}
return false;
};
var isNodeMatchingSelectorFocusable = function isNodeMatchingSelectorFocusable2(options, node) {
if (node.disabled || // we must do an inert look up to filter out any elements inside an inert ancestor
// because we're limited in the type of selectors we can use in JSDom (see related
// note related to `candidateSelectors`)
isInert(node) || isHiddenInput(node) || isHidden(node, options) || // For a details element with a summary, the summary element gets the focus
isDetailsWithSummary(node) || isDisabledFromFieldset(node)) {
return false;
}
return true;
};
var isNodeMatchingSelectorTabbable = function isNodeMatchingSelectorTabbable2(options, node) {
if (isNonTabbableRadio(node) || getTabIndex(node) < 0 || !isNodeMatchingSelectorFocusable(options, node)) {
return false;
}
return true;
};
var isValidShadowRootTabbable = function isValidShadowRootTabbable2(shadowHostNode) {
var tabIndex = parseInt(shadowHostNode.getAttribute("tabindex"), 10);
if (isNaN(tabIndex) || tabIndex >= 0) {
return true;
}
return false;
};
var sortByOrder = function sortByOrder2(candidates) {
var regularTabbables = [];
var orderedTabbables = [];
candidates.forEach(function(item, i) {
var isScope = !!item.scopeParent;
var element = isScope ? item.scopeParent : item;
var candidateTabindex = getSortOrderTabIndex(element, isScope);
var elements = isScope ? sortByOrder2(item.candidates) : element;
if (candidateTabindex === 0) {
isScope ? regularTabbables.push.apply(regularTabbables, elements) : regularTabbables.push(element);
} else {
orderedTabbables.push({
documentOrder: i,
tabIndex: candidateTabindex,
item,
isScope,
content: elements
});
}
});
return orderedTabbables.sort(sortOrderedTabbables).reduce(function(acc, sortable) {
sortable.isScope ? acc.push.apply(acc, sortable.content) : acc.push(sortable.content);
return acc;
}, []).concat(regularTabbables);
};
var tabbable = function tabbable2(container, options) {
options = options || {};
var candidates;
if (options.getShadowRoot) {
candidates = getCandidatesIteratively([container], options.includeContainer, {
filter: isNodeMatchingSelectorTabbable.bind(null, options),
flatten: false,
getShadowRoot: options.getShadowRoot,
shadowRootFilter: isValidShadowRootTabbable
});
} else {
candidates = getCandidates(container, options.includeContainer, isNodeMatchingSelectorTabbable.bind(null, options));
}
return sortByOrder(candidates);
};
var focusable = function focusable2(container, options) {
options = options || {};
var candidates;
if (options.getShadowRoot) {
candidates = getCandidatesIteratively([container], options.includeContainer, {
filter: isNodeMatchingSelectorFocusable.bind(null, options),
flatten: true,
getShadowRoot: options.getShadowRoot
});
} else {
candidates = getCandidates(container, options.includeContainer, isNodeMatchingSelectorFocusable.bind(null, options));
}
return candidates;
};
var isTabbable = function isTabbable2(node, options) {
options = options || {};
if (!node) {
throw new Error("No node provided");
}
if (matches.call(node, candidateSelector) === false) {
return false;
}
return isNodeMatchingSelectorTabbable(options, node);
};
var focusableCandidateSelector = candidateSelectors.concat("iframe").join(",");
var isFocusable = function isFocusable2(node, options) {
options = options || {};
if (!node) {
throw new Error("No node provided");
}
if (matches.call(node, focusableCandidateSelector) === false) {
return false;
}
return isNodeMatchingSelectorFocusable(options, node);
};
// node_modules/focus-trap/dist/focus-trap.esm.js
function _arrayLikeToArray(r, a) {
(null == a || a > r.length) && (a = r.length);
for (var e = 0, n = Array(a); e < a; e++) n[e] = r[e];
return n;
}
function _arrayWithoutHoles(r) {
if (Array.isArray(r)) return _arrayLikeToArray(r);
}
function _defineProperty(e, r, t) {
return (r = _toPropertyKey(r)) in e ? Object.defineProperty(e, r, {
value: t,
enumerable: true,
configurable: true,
writable: true
}) : e[r] = t, e;
}
function _iterableToArray(r) {
if ("undefined" != typeof Symbol && null != r[Symbol.iterator] || null != r["@@iterator"]) return Array.from(r);
}
function _nonIterableSpread() {
throw new TypeError("Invalid attempt to spread non-iterable instance.\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method.");
}
function ownKeys(e, r) {
var t = Object.keys(e);
if (Object.getOwnPropertySymbols) {
var o = Object.getOwnPropertySymbols(e);
r && (o = o.filter(function(r2) {
return Object.getOwnPropertyDescriptor(e, r2).enumerable;
})), t.push.apply(t, o);
}
return t;
}
function _objectSpread2(e) {
for (var r = 1; r < arguments.length; r++) {
var t = null != arguments[r] ? arguments[r] : {};
r % 2 ? ownKeys(Object(t), true).forEach(function(r2) {
_defineProperty(e, r2, t[r2]);
}) : Object.getOwnPropertyDescriptors ? Object.defineProperties(e, Object.getOwnPropertyDescriptors(t)) : ownKeys(Object(t)).forEach(function(r2) {
Object.defineProperty(e, r2, Object.getOwnPropertyDescriptor(t, r2));
});
}
return e;
}
function _toConsumableArray(r) {
return _arrayWithoutHoles(r) || _iterableToArray(r) || _unsupportedIterableToArray(r) || _nonIterableSpread();
}
function _toPrimitive(t, r) {
if ("object" != typeof t || !t) return t;
var e = t[Symbol.toPrimitive];
if (void 0 !== e) {
var i = e.call(t, r);
if ("object" != typeof i) return i;
throw new TypeError("@@toPrimitive must return a primitive value.");
}
return ("string" === r ? String : Number)(t);
}
function _toPropertyKey(t) {
var i = _toPrimitive(t, "string");
return "symbol" == typeof i ? i : i + "";
}
function _unsupportedIterableToArray(r, a) {
if (r) {
if ("string" == typeof r) return _arrayLikeToArray(r, a);
var t = {}.toString.call(r).slice(8, -1);
return "Object" === t && r.constructor && (t = r.constructor.name), "Map" === t || "Set" === t ? Array.from(r) : "Arguments" === t || /^(?:Ui|I)nt(?:8|16|32)(?:Clamped)?Array$/.test(t) ? _arrayLikeToArray(r, a) : void 0;
}
}
var activeFocusTraps = {
activateTrap: function activateTrap(trapStack, trap) {
if (trapStack.length > 0) {
var activeTrap = trapStack[trapStack.length - 1];
if (activeTrap !== trap) {
activeTrap._setPausedState(true);
}
}
var trapIndex = trapStack.indexOf(trap);
if (trapIndex === -1) {
trapStack.push(trap);
} else {
trapStack.splice(trapIndex, 1);
trapStack.push(trap);
}
},
deactivateTrap: function deactivateTrap(trapStack, trap) {
var trapIndex = trapStack.indexOf(trap);
if (trapIndex !== -1) {
trapStack.splice(trapIndex, 1);
}
if (trapStack.length > 0 && !trapStack[trapStack.length - 1]._isManuallyPaused()) {
trapStack[trapStack.length - 1]._setPausedState(false);
}
}
};
var isSelectableInput = function isSelectableInput2(node) {
return node.tagName && node.tagName.toLowerCase() === "input" && typeof node.select === "function";
};
var isEscapeEvent = function isEscapeEvent2(e) {
return (e === null || e === void 0 ? void 0 : e.key) === "Escape" || (e === null || e === void 0 ? void 0 : e.key) === "Esc" || (e === null || e === void 0 ? void 0 : e.keyCode) === 27;
};
var isTabEvent = function isTabEvent2(e) {
return (e === null || e === void 0 ? void 0 : e.key) === "Tab" || (e === null || e === void 0 ? void 0 : e.keyCode) === 9;
};
var isKeyForward = function isKeyForward2(e) {
return isTabEvent(e) && !e.shiftKey;
};
var isKeyBackward = function isKeyBackward2(e) {
return isTabEvent(e) && e.shiftKey;
};
var delay = function delay2(fn) {
return setTimeout(fn, 0);
};
var valueOrHandler = function valueOrHandler2(value) {
for (var _len = arguments.length, params = new Array(_len > 1 ? _len - 1 : 0), _key = 1; _key < _len; _key++) {
params[_key - 1] = arguments[_key];
}
return typeof value === "function" ? value.apply(void 0, params) : value;
};
var getActualTarget = function getActualTarget2(event) {
return event.target.shadowRoot && typeof event.composedPath === "function" ? event.composedPath()[0] : event.target;
};
var internalTrapStack = [];
var createFocusTrap = function createFocusTrap2(elements, userOptions) {
var doc = (userOptions === null || userOptions === void 0 ? void 0 : userOptions.document) || document;
var trapStack = (userOptions === null || userOptions === void 0 ? void 0 : userOptions.trapStack) || internalTrapStack;
var config = _objectSpread2({
returnFocusOnDeactivate: true,
escapeDeactivates: true,
delayInitialFocus: true,
isKeyForward,
isKeyBackward
}, userOptions);
var state = {
// containers given to createFocusTrap()
// @type {Array<HTMLElement>}
containers: [],
// list of objects identifying tabbable nodes in `containers` in the trap
// NOTE: it's possible that a group has no tabbable nodes if nodes get removed while the trap
// is active, but the trap should never get to a state where there isn't at least one group
// with at least one tabbable node in it (that would lead to an error condition that would
// result in an error being thrown)
// @type {Array<{
// container: HTMLElement,
// tabbableNodes: Array<HTMLElement>, // empty if none
// focusableNodes: Array<HTMLElement>, // empty if none
// posTabIndexesFound: boolean,
// firstTabbableNode: HTMLElement|undefined,
// lastTabbableNode: HTMLElement|undefined,
// firstDomTabbableNode: HTMLElement|undefined,
// lastDomTabbableNode: HTMLElement|undefined,
// nextTabbableNode: (node: HTMLElement, forward: boolean) => HTMLElement|undefined
// }>}
containerGroups: [],
// same order/length as `containers` list
// references to objects in `containerGroups`, but only those that actually have
// tabbable nodes in them
// NOTE: same order as `containers` and `containerGroups`, but __not necessarily__
// the same length
tabbableGroups: [],
nodeFocusedBeforeActivation: null,
mostRecentlyFocusedNode: null,
active: false,
paused: false,
manuallyPaused: false,
// timer ID for when delayInitialFocus is true and initial focus in this trap
// has been delayed during activation
delayInitialFocusTimer: void 0,
// the most recent KeyboardEvent for the configured nav key (typically [SHIFT+]TAB), if any
recentNavEvent: void 0
};
var trap;
var getOption = function getOption2(configOverrideOptions, optionName, configOptionName) {
return configOverrideOptions && configOverrideOptions[optionName] !== void 0 ? configOverrideOptions[optionName] : config[configOptionName || optionName];
};
var findContainerIndex = function findContainerIndex2(element, event) {
var composedPath = typeof (event === null || event === void 0 ? void 0 : event.composedPath) === "function" ? event.composedPath() : void 0;
return state.containerGroups.findIndex(function(_ref) {
var container = _ref.container, tabbableNodes = _ref.tabbableNodes;
return container.contains(element) || // fall back to explicit tabbable search which will take into consideration any
// web components if the `tabbableOptions.getShadowRoot` option was used for
// the trap, enabling shadow DOM support in tabbable (`Node.contains()` doesn't
// look inside web components even if open)
(composedPath === null || composedPath === void 0 ? void 0 : composedPath.includes(container)) || tabbableNodes.find(function(node) {
return node === element;
});
});
};
var getNodeForOption = function getNodeForOption2(optionName) {
var _ref2 = arguments.length > 1 && arguments[1] !== void 0 ? arguments[1] : {}, _ref2$hasFallback = _ref2.hasFallback, hasFallback = _ref2$hasFallback === void 0 ? false : _ref2$hasFallback, _ref2$params = _ref2.params, params = _ref2$params === void 0 ? [] : _ref2$params;
var optionValue = config[optionName];
if (typeof optionValue === "function") {
optionValue = optionValue.apply(void 0, _toConsumableArray(params));
}
if (optionValue === true) {
optionValue = void 0;
}
if (!optionValue) {
if (optionValue === void 0 || optionValue === false) {
return optionValue;
}
throw new Error("`".concat(optionName, "` was specified but was not a node, or did not return a node"));
}
var node = optionValue;
if (typeof optionValue === "string") {
try {
node = doc.querySelector(optionValue);
} catch (err) {
throw new Error("`".concat(optionName, '` appears to be an invalid selector; error="').concat(err.message, '"'));
}
if (!node) {
if (!hasFallback) {
throw new Error("`".concat(optionName, "` as selector refers to no known node"));
}
}
}
return node;
};
var getInitialFocusNode = function getInitialFocusNode2() {
var node = getNodeForOption("initialFocus", {
hasFallback: true
});
if (node === false) {
return false;
}
if (node === void 0 || node && !isFocusable(node, config.tabbableOptions)) {
if (findContainerIndex(doc.activeElement) >= 0) {
node = doc.activeElement;
} else {
var firstTabbableGroup = state.tabbableGroups[0];
var firstTabbableNode = firstTabbableGroup && firstTabbableGroup.firstTabbableNode;
node = firstTabbableNode || getNodeForOption("fallbackFocus");
}
} else if (node === null) {
node = getNodeForOption("fallbackFocus");
}
if (!node) {
throw new Error("Your focus-trap needs to have at least one focusable element");
}
return node;
};
var updateTabbableNodes = function updateTabbableNodes2() {
state.containerGroups = state.containers.map(function(container) {
var tabbableNodes = tabbable(container, config.tabbableOptions);
var focusableNodes = focusable(container, config.tabbableOptions);
var firstTabbableNode = tabbableNodes.length > 0 ? tabbableNodes[0] : void 0;
var lastTabbableNode = tabbableNodes.length > 0 ? tabbableNodes[tabbableNodes.length - 1] : void 0;
var firstDomTabbableNode = focusableNodes.find(function(node) {
return isTabbable(node);
});
var lastDomTabbableNode = focusableNodes.slice().reverse().find(function(node) {
return isTabbable(node);
});
var posTabIndexesFound = !!tabbableNodes.find(function(node) {
return getTabIndex(node) > 0;
});
return {
container,
tabbableNodes,
focusableNodes,
/** True if at least one node with positive `tabindex` was found in this container. */
posTabIndexesFound,
/** First tabbable node in container, __tabindex__ order; `undefined` if none. */
firstTabbableNode,
/** Last tabbable node in container, __tabindex__ order; `undefined` if none. */
lastTabbableNode,
// NOTE: DOM order is NOT NECESSARILY "document position" order, but figuring that out
// would require more than just https://developer.mozilla.org/en-US/docs/Web/API/Node/compareDocumentPosition
// because that API doesn't work with Shadow DOM as well as it should (@see
// https://github.com/whatwg/dom/issues/320) and since this first/last is only needed, so far,
// to address an edge case related to positive tabindex support, this seems like a much easier,
// "close enough most of the time" alternative for positive tabindexes which should generally
// be avoided anyway...
/** First tabbable node in container, __DOM__ order; `undefined` if none. */
firstDomTabbableNode,
/** Last tabbable node in container, __DOM__ order; `undefined` if none. */
lastDomTabbableNode,
/**
* Finds the __tabbable__ node that follows the given node in the specified direction,
* in this container, if any.
* @param {HTMLElement} node
* @param {boolean} [forward] True if going in forward tab order; false if going
* in reverse.
* @returns {HTMLElement|undefined} The next tabbable node, if any.
*/
nextTabbableNode: function nextTabbableNode(node) {
var forward = arguments.length > 1 && arguments[1] !== void 0 ? arguments[1] : true;
var nodeIdx = tabbableNodes.indexOf(node);
if (nodeIdx < 0) {
if (forward) {
return focusableNodes.slice(focusableNodes.indexOf(node) + 1).find(function(el) {
return isTabbable(el);
});
}
return focusableNodes.slice(0, focusableNodes.indexOf(node)).reverse().find(function(el) {
return isTabbable(el);
});
}
return tabbableNodes[nodeIdx + (forward ? 1 : -1)];
}
};
});
state.tabbableGroups = state.containerGroups.filter(function(group) {
return group.tabbableNodes.length > 0;
});
if (state.tabbableGroups.length <= 0 && !getNodeForOption("fallbackFocus")) {
throw new Error("Your focus-trap must have at least one container with at least one tabbable node in it at all times");
}
if (state.containerGroups.find(function(g) {
return g.posTabIndexesFound;
}) && state.containerGroups.length > 1) {
throw new Error("At least one node with a positive tabindex was found in one of your focus-trap's multiple containers. Positive tabindexes are only supported in single-container focus-traps.");
}
};
var _getActiveElement = function getActiveElement(el) {
var activeElement = el.activeElement;
if (!activeElement) {
return;
}
if (activeElement.shadowRoot && activeElement.shadowRoot.activeElement !== null) {
return _getActiveElement(activeElement.shadowRoot);
}
return activeElement;
};
var _tryFocus = function tryFocus(node) {
if (node === false) {
return;
}
if (node === _getActiveElement(document)) {
return;
}
if (!node || !node.focus) {
_tryFocus(getInitialFocusNode());
return;
}
node.focus({
preventScroll: !!config.preventScroll
});
state.mostRecentlyFocusedNode = node;
if (isSelectableInput(node)) {
node.select();
}
};
var getReturnFocusNode = function getReturnFocusNode2(previousActiveElement) {
var node = getNodeForOption("setReturnFocus", {
params: [previousActiveElement]
});
return node ? node : node === false ? false : previousActiveElement;
};
var findNextNavNode = function findNextNavNode2(_ref3) {
var target = _ref3.target, event = _ref3.event, _ref3$isBackward = _ref3.isBackward, isBackward = _ref3$isBackward === void 0 ? false : _ref3$isBackward;
target = target || getActualTarget(event);
updateTabbableNodes();
var destinationNode = null;
if (state.tabbableGroups.length > 0) {
var containerIndex = findContainerIndex(target, event);
var containerGroup = containerIndex >= 0 ? state.containerGroups[containerIndex] : void 0;
if (containerIndex < 0) {
if (isBackward) {
destinationNode = state.tabbableGroups[state.tabbableGroups.length - 1].lastTabbableNode;
} else {
destinationNode = state.tabbableGroups[0].firstTabbableNode;
}
} else if (isBackward) {
var startOfGroupIndex = state.tabbableGroups.findIndex(function(_ref4) {
var firstTabbableNode = _ref4.firstTabbableNode;
return target === firstTabbableNode;
});
if (startOfGroupIndex < 0 && (containerGroup.container === target || isFocusable(target, config.tabbableOptions) && !isTabbable(target, config.tabbableOptions) && !containerGroup.nextTabbableNode(target, false))) {
startOfGroupIndex = containerIndex;
}
if (startOfGroupIndex >= 0) {
var destinationGroupIndex = startOfGroupIndex === 0 ? state.tabbableGroups.length - 1 : startOfGroupIndex - 1;
var destinationGroup = state.tabbableGroups[destinationGroupIndex];
destinationNode = getTabIndex(target) >= 0 ? destinationGroup.lastTabbableNode : destinationGroup.lastDomTabbableNode;
} else if (!isTabEvent(event)) {
destinationNode = containerGroup.nextTabbableNode(target, false);
}
} else {
var lastOfGroupIndex = state.tabbableGroups.findIndex(function(_ref5) {
var lastTabbableNode = _ref5.lastTabbableNode;
return target === lastTabbableNode;
});
if (lastOfGroupIndex < 0 && (containerGroup.container === target || isFocusable(target, config.tabbableOptions) && !isTabbable(target, config.tabbableOptions) && !containerGroup.nextTabbableNode(target))) {
lastOfGroupIndex = containerIndex;
}
if (lastOfGroupIndex >= 0) {
var _destinationGroupIndex = lastOfGroupIndex === state.tabbableGroups.length - 1 ? 0 : lastOfGroupIndex + 1;
var _destinationGroup = state.tabbableGroups[_destinationGroupIndex];
destinationNode = getTabIndex(target) >= 0 ? _destinationGroup.firstTabbableNode : _destinationGroup.firstDomTabbableNode;
} else if (!isTabEvent(event)) {
destinationNode = containerGroup.nextTabbableNode(target);
}
}
} else {
destinationNode = getNodeForOption("fallbackFocus");
}
return destinationNode;
};
var checkPointerDown = function checkPointerDown2(e) {
var target = getActualTarget(e);
if (findContainerIndex(target, e) >= 0) {
return;
}
if (valueOrHandler(config.clickOutsideDeactivates, e)) {
trap.deactivate({
// NOTE: by setting `returnFocus: false`, deactivate() will do nothing,
// which will result in the outside click setting focus to the node
// that was clicked (and if not focusable, to "nothing"); by setting
// `returnFocus: true`, we'll attempt to re-focus the node originally-focused
// on activation (or the configured `setReturnFocus` node), whether the
// outside click was on a focusable node or not
returnFocus: config.returnFocusOnDeactivate
});
return;
}
if (valueOrHandler(config.allowOutsideClick, e)) {
return;
}
e.preventDefault();
};
var checkFocusIn = function checkFocusIn2(event) {
var target = getActualTarget(event);
var targetContained = findContainerIndex(target, event) >= 0;
if (targetContained || target instanceof Document) {
if (targetContained) {
state.mostRecentlyFocusedNode = target;
}
} else {
event.stopImmediatePropagation();
var nextNode;
var navAcrossContainers = true;
if (state.mostRecentlyFocusedNode) {
if (getTabIndex(state.mostRecentlyFocusedNode) > 0) {
var mruContainerIdx = findContainerIndex(state.mostRecentlyFocusedNode);
var tabbableNodes = state.containerGroups[mruContainerIdx].tabbableNodes;
if (tabbableNodes.length > 0) {
var mruTabIdx = tabbableNodes.findIndex(function(node) {
return node === state.mostRecentlyFocusedNode;
});
if (mruTabIdx >= 0) {
if (config.isKeyForward(state.recentNavEvent)) {
if (mruTabIdx + 1 < tabbableNodes.length) {
nextNode = tabbableNodes[mruTabIdx + 1];
navAcrossContainers = false;
}
} else {
if (mruTabIdx - 1 >= 0) {
nextNode = tabbableNodes[mruTabIdx - 1];
navAcrossContainers = false;
}
}
}
}
} else {
if (!state.containerGroups.some(function(g) {
return g.tabbableNodes.some(function(n) {
return getTabIndex(n) > 0;
});
})) {
navAcrossContainers = false;
}
}
} else {
navAcrossContainers = false;
}
if (navAcrossContainers) {
nextNode = findNextNavNode({
// move FROM the MRU node, not event-related node (which will be the node that is
// outside the trap causing the focus escape we're trying to fix)
target: state.mostRecentlyFocusedNode,
isBackward: config.isKeyBackward(state.recentNavEvent)
});
}
if (nextNode) {
_tryFocus(nextNode);
} else {
_tryFocus(state.mostRecentlyFocusedNode || getInitialFocusNode());
}
}
state.recentNavEvent = void 0;
};
var checkKeyNav = function checkKeyNav2(event) {
var isBackward = arguments.length > 1 && arguments[1] !== void 0 ? arguments[1] : false;
state.recentNavEvent = event;
var destinationNode = findNextNavNode({
event,
isBackward
});
if (destinationNode) {
if (isTabEvent(event)) {
event.preventDefault();
}
_tryFocus(destinationNode);
}
};
var checkTabKey = function checkTabKey2(event) {
if (config.isKeyForward(event) || config.isKeyBackward(event)) {
checkKeyNav(event, config.isKeyBackward(event));
}
};
var checkEscapeKey = function checkEscapeKey2(event) {
if (isEscapeEvent(event) && valueOrHandler(config.escapeDeactivates, event) !== false) {
event.preventDefault();
trap.deactivate();
}
};
var checkClick = function checkClick2(e) {
var target = getActualTarget(e);
if (findContainerIndex(target, e) >= 0) {
return;
}
if (valueOrHandler(config.clickOutsideDeactivates, e)) {
return;
}
if (valueOrHandler(config.allowOutsideClick, e)) {
return;
}
e.preventDefault();
e.stopImmediatePropagation();
};
var addListeners = function addListeners2() {
if (!state.active) {
return;
}
activeFocusTraps.activateTrap(trapStack, trap);
state.delayInitialFocusTimer = config.delayInitialFocus ? delay(function() {
_tryFocus(getInitialFocusNode());
}) : _tryFocus(getInitialFocusNode());
doc.addEventListener("focusin", checkFocusIn, true);
doc.addEventListener("mousedown", checkPointerDown, {
capture: true,
passive: false
});
doc.addEventListener("touchstart", checkPointerDown, {
capture: true,
passive: false
});
doc.addEventListener("click", checkClick, {
capture: true,
passive: false
});
doc.addEventListener("keydown", checkTabKey, {
capture: true,
passive: false
});
doc.addEventListener("keydown", checkEscapeKey);
return trap;
};
var removeListeners = function removeListeners2() {
if (!state.active) {
return;
}
doc.removeEventListener("focusin", checkFocusIn, true);
doc.removeEventListener("mousedown", checkPointerDown, true);
doc.removeEventListener("touchstart", checkPointerDown, true);
doc.removeEventListener("click", checkClick, true);
doc.removeEventListener("keydown", checkTabKey, true);
doc.removeEventListener("keydown", checkEscapeKey);
return trap;
};
var checkDomRemoval = function checkDomRemoval2(mutations) {
var isFocusedNodeRemoved = mutations.some(function(mutation) {
var removedNodes = Array.from(mutation.removedNodes);
return removedNodes.some(function(node) {
return node === state.mostRecentlyFocusedNode;
});
});
if (isFocusedNodeRemoved) {
_tryFocus(getInitialFocusNode());
}
};
var mutationObserver = typeof window !== "undefined" && "MutationObserver" in window ? new MutationObserver(checkDomRemoval) : void 0;
var updateObservedNodes = function updateObservedNodes2() {
if (!mutationObserver) {
return;
}
mutationObserver.disconnect();
if (state.active && !state.paused) {
state.containers.map(function(container) {
mutationObserver.observe(container, {
subtree: true,
childList: true
});
});
}
};
trap = {
get active() {
return state.active;
},
get paused() {
return state.paused;
},
activate: function activate(activateOptions) {
if (state.active) {
return this;
}
var onActivate = getOption(activateOptions, "onActivate");
var onPostActivate = getOption(activateOptions, "onPostActivate");
var checkCanFocusTrap = getOption(activateOptions, "checkCanFocusTrap");
if (!checkCanFocusTrap) {
updateTabbableNodes();
}
state.active = true;
state.paused = false;
state.nodeFocusedBeforeActivation = _getActiveElement(doc);
onActivate === null || onActivate === void 0 || onActivate();
var finishActivation = function finishActivation2() {
if (checkCanFocusTrap) {
updateTabbableNodes();
}
addListeners();
updateObservedNodes();
onPostActivate === null || onPostActivate === void 0 || onPostActivate();
};
if (checkCanFocusTrap) {
checkCanFocusTrap(state.containers.concat()).then(finishActivation, finishActivation);
return this;
}
finishActivation();
return this;
},
deactivate: function deactivate(deactivateOptions) {
if (!state.active) {
return this;
}
var options = _objectSpread2({
onDeactivate: config.onDeactivate,
onPostDeactivate: config.onPostDeactivate,
checkCanReturnFocus: config.checkCanReturnFocus
}, deactivateOptions);
clearTimeout(state.delayInitialFocusTimer);
state.delayInitialFocusTimer = void 0;
removeListeners();
state.active = false;
state.paused = false;
updateObservedNodes();
activeFocusTraps.deactivateTrap(trapStack, trap);
var onDeactivate = getOption(options, "onDeactivate");
var onPostDeactivate = getOption(options, "onPostDeactivate");
var checkCanReturnFocus = getOption(options, "checkCanReturnFocus");
var returnFocus = getOption(options, "returnFocus", "returnFocusOnDeactivate");
onDeactivate === null || onDeactivate === void 0 || onDeactivate();
var finishDeactivation = function finishDeactivation2() {
delay(function() {
if (returnFocus) {
_tryFocus(getReturnFocusNode(state.nodeFocusedBeforeActivation));
}
onPostDeactivate === null || onPostDeactivate === void 0 || onPostDeactivate();
});
};
if (returnFocus && checkCanReturnFocus) {
checkCanReturnFocus(getReturnFocusNode(state.nodeFocusedBeforeActivation)).then(finishDeactivation, finishDeactivation);
return this;
}
finishDeactivation();
return this;
},
pause: function pause(pauseOptions) {
if (!state.active) {
return this;
}
state.manuallyPaused = true;
return this._setPausedState(true, pauseOptions);
},
unpause: function unpause(unpauseOptions) {
if (!state.active) {
return this;
}
state.manuallyPaused = false;
if (trapStack[trapStack.length - 1] !== this) {
return this;
}
return this._setPausedState(false, unpauseOptions);
},
updateContainerElements: function updateContainerElements(containerElements) {
var elementsAsArray = [].concat(containerElements).filter(Boolean);
state.containers = elementsAsArray.map(function(element) {
return typeof element === "string" ? doc.querySelector(element) : element;
});
if (state.active) {
updateTabbableNodes();
}
updateObservedNodes();
return this;
}
};
Object.defineProperties(trap, {
_isManuallyPaused: {
value: function value() {
return state.manuallyPaused;
}
},
_setPausedState: {
value: function value(paused, options) {
if (state.paused === paused) {
return this;
}
state.paused = paused;
if (paused) {
var onPause = getOption(options, "onPause");
var onPostPause = getOption(options, "onPostPause");
onPause === null || onPause === void 0 || onPause();
removeListeners();
updateObservedNodes();
onPostPause === null || onPostPause === void 0 || onPostPause();
} else {
var onUnpause = getOption(options, "onUnpause");
var onPostUnpause = getOption(options, "onPostUnpause");
onUnpause === null || onUnpause === void 0 || onUnpause();
updateTabbableNodes();
addListeners();
updateObservedNodes();
onPostUnpause === null || onPostUnpause === void 0 || onPostUnpause();
}
return this;
}
}
});
trap.updateContainerElements(elements);
return trap;
};
// node_modules/@vueuse/integrations/useFocusTrap.mjs
function useFocusTrap(target, options = {}) {
let trap;
const { immediate, ...focusTrapOptions } = options;
const hasFocus = shallowRef(false);
const isPaused = shallowRef(false);
const activate = (opts) => trap && trap.activate(opts);
const deactivate = (opts) => trap && trap.deactivate(opts);
const pause = () => {
if (trap) {
trap.pause();
isPaused.value = true;
}
};
const unpause = () => {
if (trap) {
trap.unpause();
isPaused.value = false;
}
};
const targets = computed(() => {
const _targets = toValue(target);
return toArray(_targets).map((el) => {
const _el = toValue(el);
return typeof _el === "string" ? _el : unrefElement(_el);
}).filter(notNullish);
});
watch(
targets,
(els) => {
if (!els.length)
return;
trap = createFocusTrap(els, {
...focusTrapOptions,
onActivate() {
hasFocus.value = true;
if (options.onActivate)
options.onActivate();
},
onDeactivate() {
hasFocus.value = false;
if (options.onDeactivate)
options.onDeactivate();
}
});
if (immediate)
activate();
},
{ flush: "post" }
);
tryOnScopeDispose(() => deactivate());
return {
hasFocus,
isPaused,
activate,
deactivate,
pause,
unpause
};
}
export {
useFocusTrap
};
/*! Bundled license information:
tabbable/dist/index.esm.js:
(*!
* tabbable 6.2.0
* @license MIT, https://github.com/focus-trap/tabbable/blob/master/LICENSE
*)
focus-trap/dist/focus-trap.esm.js:
(*!
* focus-trap 7.6.5
* @license MIT, https://github.com/focus-trap/focus-trap/blob/master/LICENSE
*)
*/
//# sourceMappingURL=vitepress___@vueuse_integrations_useFocusTrap.js.map
```
--------------------------------------------------------------------------------
/docs/.vitepress/cache/deps/vitepress___mark__js_src_vanilla__js.js:
--------------------------------------------------------------------------------
```javascript
// node_modules/mark.js/src/lib/domiterator.js
var DOMIterator = class _DOMIterator {
/**
* @param {HTMLElement|HTMLElement[]|NodeList|string} ctx - The context DOM
* element, an array of DOM elements, a NodeList or a selector
* @param {boolean} [iframes=true] - A boolean indicating if iframes should
* be handled
* @param {string[]} [exclude=[]] - An array containing exclusion selectors
* for iframes
* @param {number} [iframesTimeout=5000] - A number indicating the ms to
* wait before an iframe should be skipped, in case the load event isn't
* fired. This also applies if the user is offline and the resource of the
* iframe is online (either by the browsers "offline" mode or because
* there's no internet connection)
*/
constructor(ctx, iframes = true, exclude = [], iframesTimeout = 5e3) {
this.ctx = ctx;
this.iframes = iframes;
this.exclude = exclude;
this.iframesTimeout = iframesTimeout;
}
/**
* Checks if the specified DOM element matches the selector
* @param {HTMLElement} element - The DOM element
* @param {string|string[]} selector - The selector or an array with
* selectors
* @return {boolean}
* @access public
*/
static matches(element, selector) {
const selectors = typeof selector === "string" ? [selector] : selector, fn = element.matches || element.matchesSelector || element.msMatchesSelector || element.mozMatchesSelector || element.oMatchesSelector || element.webkitMatchesSelector;
if (fn) {
let match = false;
selectors.every((sel) => {
if (fn.call(element, sel)) {
match = true;
return false;
}
return true;
});
return match;
} else {
return false;
}
}
/**
* Returns all contexts filtered by duplicates (even nested)
* @return {HTMLElement[]} - An array containing DOM contexts
* @access protected
*/
getContexts() {
let ctx, filteredCtx = [];
if (typeof this.ctx === "undefined" || !this.ctx) {
ctx = [];
} else if (NodeList.prototype.isPrototypeOf(this.ctx)) {
ctx = Array.prototype.slice.call(this.ctx);
} else if (Array.isArray(this.ctx)) {
ctx = this.ctx;
} else if (typeof this.ctx === "string") {
ctx = Array.prototype.slice.call(
document.querySelectorAll(this.ctx)
);
} else {
ctx = [this.ctx];
}
ctx.forEach((ctx2) => {
const isDescendant = filteredCtx.filter((contexts) => {
return contexts.contains(ctx2);
}).length > 0;
if (filteredCtx.indexOf(ctx2) === -1 && !isDescendant) {
filteredCtx.push(ctx2);
}
});
return filteredCtx;
}
/**
* @callback DOMIterator~getIframeContentsSuccessCallback
* @param {HTMLDocument} contents - The contentDocument of the iframe
*/
/**
* Calls the success callback function with the iframe document. If it can't
* be accessed it calls the error callback function
* @param {HTMLElement} ifr - The iframe DOM element
* @param {DOMIterator~getIframeContentsSuccessCallback} successFn
* @param {function} [errorFn]
* @access protected
*/
getIframeContents(ifr, successFn, errorFn = () => {
}) {
let doc;
try {
const ifrWin = ifr.contentWindow;
doc = ifrWin.document;
if (!ifrWin || !doc) {
throw new Error("iframe inaccessible");
}
} catch (e) {
errorFn();
}
if (doc) {
successFn(doc);
}
}
/**
* Checks if an iframe is empty (if about:blank is the shown page)
* @param {HTMLElement} ifr - The iframe DOM element
* @return {boolean}
* @access protected
*/
isIframeBlank(ifr) {
const bl = "about:blank", src = ifr.getAttribute("src").trim(), href = ifr.contentWindow.location.href;
return href === bl && src !== bl && src;
}
/**
* Observes the onload event of an iframe and calls the success callback or
* the error callback if the iframe is inaccessible. If the event isn't
* fired within the specified {@link DOMIterator#iframesTimeout}, then it'll
* call the error callback too
* @param {HTMLElement} ifr - The iframe DOM element
* @param {DOMIterator~getIframeContentsSuccessCallback} successFn
* @param {function} errorFn
* @access protected
*/
observeIframeLoad(ifr, successFn, errorFn) {
let called = false, tout = null;
const listener = () => {
if (called) {
return;
}
called = true;
clearTimeout(tout);
try {
if (!this.isIframeBlank(ifr)) {
ifr.removeEventListener("load", listener);
this.getIframeContents(ifr, successFn, errorFn);
}
} catch (e) {
errorFn();
}
};
ifr.addEventListener("load", listener);
tout = setTimeout(listener, this.iframesTimeout);
}
/**
* Callback when the iframe is ready
* @callback DOMIterator~onIframeReadySuccessCallback
* @param {HTMLDocument} contents - The contentDocument of the iframe
*/
/**
* Callback if the iframe can't be accessed
* @callback DOMIterator~onIframeReadyErrorCallback
*/
/**
* Calls the callback if the specified iframe is ready for DOM access
* @param {HTMLElement} ifr - The iframe DOM element
* @param {DOMIterator~onIframeReadySuccessCallback} successFn - Success
* callback
* @param {DOMIterator~onIframeReadyErrorCallback} errorFn - Error callback
* @see {@link http://stackoverflow.com/a/36155560/3894981} for
* background information
* @access protected
*/
onIframeReady(ifr, successFn, errorFn) {
try {
if (ifr.contentWindow.document.readyState === "complete") {
if (this.isIframeBlank(ifr)) {
this.observeIframeLoad(ifr, successFn, errorFn);
} else {
this.getIframeContents(ifr, successFn, errorFn);
}
} else {
this.observeIframeLoad(ifr, successFn, errorFn);
}
} catch (e) {
errorFn();
}
}
/**
* Callback when all iframes are ready for DOM access
* @callback DOMIterator~waitForIframesDoneCallback
*/
/**
* Iterates over all iframes and calls the done callback when all of them
* are ready for DOM access (including nested ones)
* @param {HTMLElement} ctx - The context DOM element
* @param {DOMIterator~waitForIframesDoneCallback} done - Done callback
*/
waitForIframes(ctx, done) {
let eachCalled = 0;
this.forEachIframe(ctx, () => true, (ifr) => {
eachCalled++;
this.waitForIframes(ifr.querySelector("html"), () => {
if (!--eachCalled) {
done();
}
});
}, (handled) => {
if (!handled) {
done();
}
});
}
/**
* Callback allowing to filter an iframe. Must return true when the element
* should remain, otherwise false
* @callback DOMIterator~forEachIframeFilterCallback
* @param {HTMLElement} iframe - The iframe DOM element
*/
/**
* Callback for each iframe content
* @callback DOMIterator~forEachIframeEachCallback
* @param {HTMLElement} content - The iframe document
*/
/**
* Callback if all iframes inside the context were handled
* @callback DOMIterator~forEachIframeEndCallback
* @param {number} handled - The number of handled iframes (those who
* wheren't filtered)
*/
/**
* Iterates over all iframes inside the specified context and calls the
* callbacks when they're ready. Filters iframes based on the instance
* exclusion selectors
* @param {HTMLElement} ctx - The context DOM element
* @param {DOMIterator~forEachIframeFilterCallback} filter - Filter callback
* @param {DOMIterator~forEachIframeEachCallback} each - Each callback
* @param {DOMIterator~forEachIframeEndCallback} [end] - End callback
* @access protected
*/
forEachIframe(ctx, filter, each, end = () => {
}) {
let ifr = ctx.querySelectorAll("iframe"), open = ifr.length, handled = 0;
ifr = Array.prototype.slice.call(ifr);
const checkEnd = () => {
if (--open <= 0) {
end(handled);
}
};
if (!open) {
checkEnd();
}
ifr.forEach((ifr2) => {
if (_DOMIterator.matches(ifr2, this.exclude)) {
checkEnd();
} else {
this.onIframeReady(ifr2, (con) => {
if (filter(ifr2)) {
handled++;
each(con);
}
checkEnd();
}, checkEnd);
}
});
}
/**
* Creates a NodeIterator on the specified context
* @see {@link https://developer.mozilla.org/en/docs/Web/API/NodeIterator}
* @param {HTMLElement} ctx - The context DOM element
* @param {DOMIterator~whatToShow} whatToShow
* @param {DOMIterator~filterCb} filter
* @return {NodeIterator}
* @access protected
*/
createIterator(ctx, whatToShow, filter) {
return document.createNodeIterator(ctx, whatToShow, filter, false);
}
/**
* Creates an instance of DOMIterator in an iframe
* @param {HTMLDocument} contents - Iframe document
* @return {DOMIterator}
* @access protected
*/
createInstanceOnIframe(contents) {
return new _DOMIterator(contents.querySelector("html"), this.iframes);
}
/**
* Checks if an iframe occurs between two nodes, more specifically if an
* iframe occurs before the specified node and after the specified prevNode
* @param {HTMLElement} node - The node that should occur after the iframe
* @param {HTMLElement} prevNode - The node that should occur before the
* iframe
* @param {HTMLElement} ifr - The iframe to check against
* @return {boolean}
* @access protected
*/
compareNodeIframe(node, prevNode, ifr) {
const compCurr = node.compareDocumentPosition(ifr), prev = Node.DOCUMENT_POSITION_PRECEDING;
if (compCurr & prev) {
if (prevNode !== null) {
const compPrev = prevNode.compareDocumentPosition(ifr), after = Node.DOCUMENT_POSITION_FOLLOWING;
if (compPrev & after) {
return true;
}
} else {
return true;
}
}
return false;
}
/**
* @typedef {DOMIterator~getIteratorNodeReturn}
* @type {object.<string>}
* @property {HTMLElement} prevNode - The previous node or null if there is
* no
* @property {HTMLElement} node - The current node
*/
/**
* Returns the previous and current node of the specified iterator
* @param {NodeIterator} itr - The iterator
* @return {DOMIterator~getIteratorNodeReturn}
* @access protected
*/
getIteratorNode(itr) {
const prevNode = itr.previousNode();
let node;
if (prevNode === null) {
node = itr.nextNode();
} else {
node = itr.nextNode() && itr.nextNode();
}
return {
prevNode,
node
};
}
/**
* An array containing objects. The object key "val" contains an iframe
* DOM element. The object key "handled" contains a boolean indicating if
* the iframe was handled already.
* It wouldn't be enough to save all open or all already handled iframes.
* The information of open iframes is necessary because they may occur after
* all other text nodes (and compareNodeIframe would never be true). The
* information of already handled iframes is necessary as otherwise they may
* be handled multiple times
* @typedef DOMIterator~checkIframeFilterIfr
* @type {object[]}
*/
/**
* Checks if an iframe wasn't handled already and if so, calls
* {@link DOMIterator#compareNodeIframe} to check if it should be handled.
* Information wheter an iframe was or wasn't handled is given within the
* <code>ifr</code> dictionary
* @param {HTMLElement} node - The node that should occur after the iframe
* @param {HTMLElement} prevNode - The node that should occur before the
* iframe
* @param {HTMLElement} currIfr - The iframe to check
* @param {DOMIterator~checkIframeFilterIfr} ifr - The iframe dictionary.
* Will be manipulated (by reference)
* @return {boolean} Returns true when it should be handled, otherwise false
* @access protected
*/
checkIframeFilter(node, prevNode, currIfr, ifr) {
let key = false, handled = false;
ifr.forEach((ifrDict, i) => {
if (ifrDict.val === currIfr) {
key = i;
handled = ifrDict.handled;
}
});
if (this.compareNodeIframe(node, prevNode, currIfr)) {
if (key === false && !handled) {
ifr.push({
val: currIfr,
handled: true
});
} else if (key !== false && !handled) {
ifr[key].handled = true;
}
return true;
}
if (key === false) {
ifr.push({
val: currIfr,
handled: false
});
}
return false;
}
/**
* Creates an iterator on all open iframes in the specified array and calls
* the end callback when finished
* @param {DOMIterator~checkIframeFilterIfr} ifr
* @param {DOMIterator~whatToShow} whatToShow
* @param {DOMIterator~forEachNodeCallback} eCb - Each callback
* @param {DOMIterator~filterCb} fCb
* @access protected
*/
handleOpenIframes(ifr, whatToShow, eCb, fCb) {
ifr.forEach((ifrDict) => {
if (!ifrDict.handled) {
this.getIframeContents(ifrDict.val, (con) => {
this.createInstanceOnIframe(con).forEachNode(
whatToShow,
eCb,
fCb
);
});
}
});
}
/**
* Iterates through all nodes in the specified context and handles iframe
* nodes at the correct position
* @param {DOMIterator~whatToShow} whatToShow
* @param {HTMLElement} ctx - The context
* @param {DOMIterator~forEachNodeCallback} eachCb - Each callback
* @param {DOMIterator~filterCb} filterCb - Filter callback
* @param {DOMIterator~forEachNodeEndCallback} doneCb - End callback
* @access protected
*/
iterateThroughNodes(whatToShow, ctx, eachCb, filterCb, doneCb) {
const itr = this.createIterator(ctx, whatToShow, filterCb);
let ifr = [], elements = [], node, prevNode, retrieveNodes = () => {
({
prevNode,
node
} = this.getIteratorNode(itr));
return node;
};
while (retrieveNodes()) {
if (this.iframes) {
this.forEachIframe(ctx, (currIfr) => {
return this.checkIframeFilter(node, prevNode, currIfr, ifr);
}, (con) => {
this.createInstanceOnIframe(con).forEachNode(
whatToShow,
(ifrNode) => elements.push(ifrNode),
filterCb
);
});
}
elements.push(node);
}
elements.forEach((node2) => {
eachCb(node2);
});
if (this.iframes) {
this.handleOpenIframes(ifr, whatToShow, eachCb, filterCb);
}
doneCb();
}
/**
* Callback for each node
* @callback DOMIterator~forEachNodeCallback
* @param {HTMLElement} node - The DOM text node element
*/
/**
* Callback if all contexts were handled
* @callback DOMIterator~forEachNodeEndCallback
*/
/**
* Iterates over all contexts and initializes
* {@link DOMIterator#iterateThroughNodes iterateThroughNodes} on them
* @param {DOMIterator~whatToShow} whatToShow
* @param {DOMIterator~forEachNodeCallback} each - Each callback
* @param {DOMIterator~filterCb} filter - Filter callback
* @param {DOMIterator~forEachNodeEndCallback} done - End callback
* @access public
*/
forEachNode(whatToShow, each, filter, done = () => {
}) {
const contexts = this.getContexts();
let open = contexts.length;
if (!open) {
done();
}
contexts.forEach((ctx) => {
const ready = () => {
this.iterateThroughNodes(whatToShow, ctx, each, filter, () => {
if (--open <= 0) {
done();
}
});
};
if (this.iframes) {
this.waitForIframes(ctx, ready);
} else {
ready();
}
});
}
/**
* Callback to filter nodes. Can return e.g. NodeFilter.FILTER_ACCEPT or
* NodeFilter.FILTER_REJECT
* @see {@link http://tinyurl.com/zdczmm2}
* @callback DOMIterator~filterCb
* @param {HTMLElement} node - The node to filter
*/
/**
* @typedef DOMIterator~whatToShow
* @see {@link http://tinyurl.com/zfqqkx2}
* @type {number}
*/
};
// node_modules/mark.js/src/lib/mark.js
var Mark = class {
// eslint-disable-line no-unused-vars
/**
* @param {HTMLElement|HTMLElement[]|NodeList|string} ctx - The context DOM
* element, an array of DOM elements, a NodeList or a selector
*/
constructor(ctx) {
this.ctx = ctx;
this.ie = false;
const ua = window.navigator.userAgent;
if (ua.indexOf("MSIE") > -1 || ua.indexOf("Trident") > -1) {
this.ie = true;
}
}
/**
* Options defined by the user. They will be initialized from one of the
* public methods. See {@link Mark#mark}, {@link Mark#markRegExp},
* {@link Mark#markRanges} and {@link Mark#unmark} for option properties.
* @type {object}
* @param {object} [val] - An object that will be merged with defaults
* @access protected
*/
set opt(val) {
this._opt = Object.assign({}, {
"element": "",
"className": "",
"exclude": [],
"iframes": false,
"iframesTimeout": 5e3,
"separateWordSearch": true,
"diacritics": true,
"synonyms": {},
"accuracy": "partially",
"acrossElements": false,
"caseSensitive": false,
"ignoreJoiners": false,
"ignoreGroups": 0,
"ignorePunctuation": [],
"wildcards": "disabled",
"each": () => {
},
"noMatch": () => {
},
"filter": () => true,
"done": () => {
},
"debug": false,
"log": window.console
}, val);
}
get opt() {
return this._opt;
}
/**
* An instance of DOMIterator
* @type {DOMIterator}
* @access protected
*/
get iterator() {
return new DOMIterator(
this.ctx,
this.opt.iframes,
this.opt.exclude,
this.opt.iframesTimeout
);
}
/**
* Logs a message if log is enabled
* @param {string} msg - The message to log
* @param {string} [level="debug"] - The log level, e.g. <code>warn</code>
* <code>error</code>, <code>debug</code>
* @access protected
*/
log(msg, level = "debug") {
const log = this.opt.log;
if (!this.opt.debug) {
return;
}
if (typeof log === "object" && typeof log[level] === "function") {
log[level](`mark.js: ${msg}`);
}
}
/**
* Escapes a string for usage within a regular expression
* @param {string} str - The string to escape
* @return {string}
* @access protected
*/
escapeStr(str) {
return str.replace(/[\-\[\]\/\{\}\(\)\*\+\?\.\\\^\$\|]/g, "\\$&");
}
/**
* Creates a regular expression string to match the specified search
* term including synonyms, diacritics and accuracy if defined
* @param {string} str - The search term to be used
* @return {string}
* @access protected
*/
createRegExp(str) {
if (this.opt.wildcards !== "disabled") {
str = this.setupWildcardsRegExp(str);
}
str = this.escapeStr(str);
if (Object.keys(this.opt.synonyms).length) {
str = this.createSynonymsRegExp(str);
}
if (this.opt.ignoreJoiners || this.opt.ignorePunctuation.length) {
str = this.setupIgnoreJoinersRegExp(str);
}
if (this.opt.diacritics) {
str = this.createDiacriticsRegExp(str);
}
str = this.createMergedBlanksRegExp(str);
if (this.opt.ignoreJoiners || this.opt.ignorePunctuation.length) {
str = this.createJoinersRegExp(str);
}
if (this.opt.wildcards !== "disabled") {
str = this.createWildcardsRegExp(str);
}
str = this.createAccuracyRegExp(str);
return str;
}
/**
* Creates a regular expression string to match the defined synonyms
* @param {string} str - The search term to be used
* @return {string}
* @access protected
*/
createSynonymsRegExp(str) {
const syn = this.opt.synonyms, sens = this.opt.caseSensitive ? "" : "i", joinerPlaceholder = this.opt.ignoreJoiners || this.opt.ignorePunctuation.length ? "\0" : "";
for (let index in syn) {
if (syn.hasOwnProperty(index)) {
const value = syn[index], k1 = this.opt.wildcards !== "disabled" ? this.setupWildcardsRegExp(index) : this.escapeStr(index), k2 = this.opt.wildcards !== "disabled" ? this.setupWildcardsRegExp(value) : this.escapeStr(value);
if (k1 !== "" && k2 !== "") {
str = str.replace(
new RegExp(
`(${this.escapeStr(k1)}|${this.escapeStr(k2)})`,
`gm${sens}`
),
joinerPlaceholder + `(${this.processSynomyms(k1)}|${this.processSynomyms(k2)})` + joinerPlaceholder
);
}
}
}
return str;
}
/**
* Setup synonyms to work with ignoreJoiners and or ignorePunctuation
* @param {string} str - synonym key or value to process
* @return {string} - processed synonym string
*/
processSynomyms(str) {
if (this.opt.ignoreJoiners || this.opt.ignorePunctuation.length) {
str = this.setupIgnoreJoinersRegExp(str);
}
return str;
}
/**
* Sets up the regular expression string to allow later insertion of
* wildcard regular expression matches
* @param {string} str - The search term to be used
* @return {string}
* @access protected
*/
setupWildcardsRegExp(str) {
str = str.replace(/(?:\\)*\?/g, (val) => {
return val.charAt(0) === "\\" ? "?" : "�";
});
return str.replace(/(?:\\)*\*/g, (val) => {
return val.charAt(0) === "\\" ? "*" : "�";
});
}
/**
* Sets up the regular expression string to allow later insertion of
* wildcard regular expression matches
* @param {string} str - The search term to be used
* @return {string}
* @access protected
*/
createWildcardsRegExp(str) {
let spaces = this.opt.wildcards === "withSpaces";
return str.replace(/\u0001/g, spaces ? "[\\S\\s]?" : "\\S?").replace(/\u0002/g, spaces ? "[\\S\\s]*?" : "\\S*");
}
/**
* Sets up the regular expression string to allow later insertion of
* designated characters (soft hyphens & zero width characters)
* @param {string} str - The search term to be used
* @return {string}
* @access protected
*/
setupIgnoreJoinersRegExp(str) {
return str.replace(/[^(|)\\]/g, (val, indx, original) => {
let nextChar = original.charAt(indx + 1);
if (/[(|)\\]/.test(nextChar) || nextChar === "") {
return val;
} else {
return val + "\0";
}
});
}
/**
* Creates a regular expression string to allow ignoring of designated
* characters (soft hyphens, zero width characters & punctuation) based on
* the specified option values of <code>ignorePunctuation</code> and
* <code>ignoreJoiners</code>
* @param {string} str - The search term to be used
* @return {string}
* @access protected
*/
createJoinersRegExp(str) {
let joiner = [];
const ignorePunctuation = this.opt.ignorePunctuation;
if (Array.isArray(ignorePunctuation) && ignorePunctuation.length) {
joiner.push(this.escapeStr(ignorePunctuation.join("")));
}
if (this.opt.ignoreJoiners) {
joiner.push("\\u00ad\\u200b\\u200c\\u200d");
}
return joiner.length ? str.split(/\u0000+/).join(`[${joiner.join("")}]*`) : str;
}
/**
* Creates a regular expression string to match diacritics
* @param {string} str - The search term to be used
* @return {string}
* @access protected
*/
createDiacriticsRegExp(str) {
const sens = this.opt.caseSensitive ? "" : "i", dct = this.opt.caseSensitive ? [
"aàáảãạăằắẳẵặâầấẩẫậäåāą",
"AÀÁẢÃẠĂẰẮẲẴẶÂẦẤẨẪẬÄÅĀĄ",
"cçćč",
"CÇĆČ",
"dđď",
"DĐĎ",
"eèéẻẽẹêềếểễệëěēę",
"EÈÉẺẼẸÊỀẾỂỄỆËĚĒĘ",
"iìíỉĩịîïī",
"IÌÍỈĨỊÎÏĪ",
"lł",
"LŁ",
"nñňń",
"NÑŇŃ",
"oòóỏõọôồốổỗộơởỡớờợöøō",
"OÒÓỎÕỌÔỒỐỔỖỘƠỞỠỚỜỢÖØŌ",
"rř",
"RŘ",
"sšśșş",
"SŠŚȘŞ",
"tťțţ",
"TŤȚŢ",
"uùúủũụưừứửữựûüůū",
"UÙÚỦŨỤƯỪỨỬỮỰÛÜŮŪ",
"yýỳỷỹỵÿ",
"YÝỲỶỸỴŸ",
"zžżź",
"ZŽŻŹ"
] : [
"aàáảãạăằắẳẵặâầấẩẫậäåāąAÀÁẢÃẠĂẰẮẲẴẶÂẦẤẨẪẬÄÅĀĄ",
"cçćčCÇĆČ",
"dđďDĐĎ",
"eèéẻẽẹêềếểễệëěēęEÈÉẺẼẸÊỀẾỂỄỆËĚĒĘ",
"iìíỉĩịîïīIÌÍỈĨỊÎÏĪ",
"lłLŁ",
"nñňńNÑŇŃ",
"oòóỏõọôồốổỗộơởỡớờợöøōOÒÓỎÕỌÔỒỐỔỖỘƠỞỠỚỜỢÖØŌ",
"rřRŘ",
"sšśșşSŠŚȘŞ",
"tťțţTŤȚŢ",
"uùúủũụưừứửữựûüůūUÙÚỦŨỤƯỪỨỬỮỰÛÜŮŪ",
"yýỳỷỹỵÿYÝỲỶỸỴŸ",
"zžżźZŽŻŹ"
];
let handled = [];
str.split("").forEach((ch) => {
dct.every((dct2) => {
if (dct2.indexOf(ch) !== -1) {
if (handled.indexOf(dct2) > -1) {
return false;
}
str = str.replace(
new RegExp(`[${dct2}]`, `gm${sens}`),
`[${dct2}]`
);
handled.push(dct2);
}
return true;
});
});
return str;
}
/**
* Creates a regular expression string that merges whitespace characters
* including subsequent ones into a single pattern, one or multiple
* whitespaces
* @param {string} str - The search term to be used
* @return {string}
* @access protected
*/
createMergedBlanksRegExp(str) {
return str.replace(/[\s]+/gmi, "[\\s]+");
}
/**
* Creates a regular expression string to match the specified string with
* the defined accuracy. As in the regular expression of "exactly" can be
* a group containing a blank at the beginning, all regular expressions will
* be created with two groups. The first group can be ignored (may contain
* the said blank), the second contains the actual match
* @param {string} str - The searm term to be used
* @return {str}
* @access protected
*/
createAccuracyRegExp(str) {
const chars = "!\"#$%&'()*+,-./:;<=>?@[\\]^_`{|}~¡¿";
let acc = this.opt.accuracy, val = typeof acc === "string" ? acc : acc.value, ls = typeof acc === "string" ? [] : acc.limiters, lsJoin = "";
ls.forEach((limiter) => {
lsJoin += `|${this.escapeStr(limiter)}`;
});
switch (val) {
case "partially":
default:
return `()(${str})`;
case "complementary":
lsJoin = "\\s" + (lsJoin ? lsJoin : this.escapeStr(chars));
return `()([^${lsJoin}]*${str}[^${lsJoin}]*)`;
case "exactly":
return `(^|\\s${lsJoin})(${str})(?=$|\\s${lsJoin})`;
}
}
/**
* @typedef Mark~separatedKeywords
* @type {object.<string>}
* @property {array.<string>} keywords - The list of keywords
* @property {number} length - The length
*/
/**
* Returns a list of keywords dependent on whether separate word search
* was defined. Also it filters empty keywords
* @param {array} sv - The array of keywords
* @return {Mark~separatedKeywords}
* @access protected
*/
getSeparatedKeywords(sv) {
let stack = [];
sv.forEach((kw) => {
if (!this.opt.separateWordSearch) {
if (kw.trim() && stack.indexOf(kw) === -1) {
stack.push(kw);
}
} else {
kw.split(" ").forEach((kwSplitted) => {
if (kwSplitted.trim() && stack.indexOf(kwSplitted) === -1) {
stack.push(kwSplitted);
}
});
}
});
return {
// sort because of https://git.io/v6USg
"keywords": stack.sort((a, b) => {
return b.length - a.length;
}),
"length": stack.length
};
}
/**
* Check if a value is a number
* @param {number|string} value - the value to check;
* numeric strings allowed
* @return {boolean}
* @access protected
*/
isNumeric(value) {
return Number(parseFloat(value)) == value;
}
/**
* @typedef Mark~rangeObject
* @type {object}
* @property {number} start - The start position within the composite value
* @property {number} length - The length of the string to mark within the
* composite value.
*/
/**
* @typedef Mark~setOfRanges
* @type {object[]}
* @property {Mark~rangeObject}
*/
/**
* Returns a processed list of integer offset indexes that do not overlap
* each other, and remove any string values or additional elements
* @param {Mark~setOfRanges} array - unprocessed raw array
* @return {Mark~setOfRanges} - processed array with any invalid entries
* removed
* @throws Will throw an error if an array of objects is not passed
* @access protected
*/
checkRanges(array) {
if (!Array.isArray(array) || Object.prototype.toString.call(array[0]) !== "[object Object]") {
this.log("markRanges() will only accept an array of objects");
this.opt.noMatch(array);
return [];
}
const stack = [];
let last = 0;
array.sort((a, b) => {
return a.start - b.start;
}).forEach((item) => {
let { start, end, valid } = this.callNoMatchOnInvalidRanges(item, last);
if (valid) {
item.start = start;
item.length = end - start;
stack.push(item);
last = end;
}
});
return stack;
}
/**
* @typedef Mark~validObject
* @type {object}
* @property {number} start - The start position within the composite value
* @property {number} end - The calculated end position within the composite
* value.
* @property {boolean} valid - boolean value indicating that the start and
* calculated end range is valid
*/
/**
* Initial validation of ranges for markRanges. Preliminary checks are done
* to ensure the start and length values exist and are not zero or non-
* numeric
* @param {Mark~rangeObject} range - the current range object
* @param {number} last - last index of range
* @return {Mark~validObject}
* @access protected
*/
callNoMatchOnInvalidRanges(range, last) {
let start, end, valid = false;
if (range && typeof range.start !== "undefined") {
start = parseInt(range.start, 10);
end = start + parseInt(range.length, 10);
if (this.isNumeric(range.start) && this.isNumeric(range.length) && end - last > 0 && end - start > 0) {
valid = true;
} else {
this.log(
`Ignoring invalid or overlapping range: ${JSON.stringify(range)}`
);
this.opt.noMatch(range);
}
} else {
this.log(`Ignoring invalid range: ${JSON.stringify(range)}`);
this.opt.noMatch(range);
}
return {
start,
end,
valid
};
}
/**
* Check valid range for markRanges. Check ranges with access to the context
* string. Range values are double checked, lengths that extend the mark
* beyond the string length are limitied and ranges containing only
* whitespace are ignored
* @param {Mark~rangeObject} range - the current range object
* @param {number} originalLength - original length of the context string
* @param {string} string - current content string
* @return {Mark~validObject}
* @access protected
*/
checkWhitespaceRanges(range, originalLength, string) {
let end, valid = true, max = string.length, offset = originalLength - max, start = parseInt(range.start, 10) - offset;
start = start > max ? max : start;
end = start + parseInt(range.length, 10);
if (end > max) {
end = max;
this.log(`End range automatically set to the max value of ${max}`);
}
if (start < 0 || end - start < 0 || start > max || end > max) {
valid = false;
this.log(`Invalid range: ${JSON.stringify(range)}`);
this.opt.noMatch(range);
} else if (string.substring(start, end).replace(/\s+/g, "") === "") {
valid = false;
this.log("Skipping whitespace only range: " + JSON.stringify(range));
this.opt.noMatch(range);
}
return {
start,
end,
valid
};
}
/**
* @typedef Mark~getTextNodesDict
* @type {object.<string>}
* @property {string} value - The composite value of all text nodes
* @property {object[]} nodes - An array of objects
* @property {number} nodes.start - The start position within the composite
* value
* @property {number} nodes.end - The end position within the composite
* value
* @property {HTMLElement} nodes.node - The DOM text node element
*/
/**
* Callback
* @callback Mark~getTextNodesCallback
* @param {Mark~getTextNodesDict}
*/
/**
* Calls the callback with an object containing all text nodes (including
* iframe text nodes) with start and end positions and the composite value
* of them (string)
* @param {Mark~getTextNodesCallback} cb - Callback
* @access protected
*/
getTextNodes(cb) {
let val = "", nodes = [];
this.iterator.forEachNode(NodeFilter.SHOW_TEXT, (node) => {
nodes.push({
start: val.length,
end: (val += node.textContent).length,
node
});
}, (node) => {
if (this.matchesExclude(node.parentNode)) {
return NodeFilter.FILTER_REJECT;
} else {
return NodeFilter.FILTER_ACCEPT;
}
}, () => {
cb({
value: val,
nodes
});
});
}
/**
* Checks if an element matches any of the specified exclude selectors. Also
* it checks for elements in which no marks should be performed (e.g.
* script and style tags) and optionally already marked elements
* @param {HTMLElement} el - The element to check
* @return {boolean}
* @access protected
*/
matchesExclude(el) {
return DOMIterator.matches(el, this.opt.exclude.concat([
// ignores the elements itself, not their childrens (selector *)
"script",
"style",
"title",
"head",
"html"
]));
}
/**
* Wraps the instance element and class around matches that fit the start
* and end positions within the node
* @param {HTMLElement} node - The DOM text node
* @param {number} start - The position where to start wrapping
* @param {number} end - The position where to end wrapping
* @return {HTMLElement} Returns the splitted text node that will appear
* after the wrapped text node
* @access protected
*/
wrapRangeInTextNode(node, start, end) {
const hEl = !this.opt.element ? "mark" : this.opt.element, startNode = node.splitText(start), ret = startNode.splitText(end - start);
let repl = document.createElement(hEl);
repl.setAttribute("data-markjs", "true");
if (this.opt.className) {
repl.setAttribute("class", this.opt.className);
}
repl.textContent = startNode.textContent;
startNode.parentNode.replaceChild(repl, startNode);
return ret;
}
/**
* @typedef Mark~wrapRangeInMappedTextNodeDict
* @type {object.<string>}
* @property {string} value - The composite value of all text nodes
* @property {object[]} nodes - An array of objects
* @property {number} nodes.start - The start position within the composite
* value
* @property {number} nodes.end - The end position within the composite
* value
* @property {HTMLElement} nodes.node - The DOM text node element
*/
/**
* Each callback
* @callback Mark~wrapMatchesEachCallback
* @param {HTMLElement} node - The wrapped DOM element
* @param {number} lastIndex - The last matching position within the
* composite value of text nodes
*/
/**
* Filter callback
* @callback Mark~wrapMatchesFilterCallback
* @param {HTMLElement} node - The matching text node DOM element
*/
/**
* Determines matches by start and end positions using the text node
* dictionary even across text nodes and calls
* {@link Mark#wrapRangeInTextNode} to wrap them
* @param {Mark~wrapRangeInMappedTextNodeDict} dict - The dictionary
* @param {number} start - The start position of the match
* @param {number} end - The end position of the match
* @param {Mark~wrapMatchesFilterCallback} filterCb - Filter callback
* @param {Mark~wrapMatchesEachCallback} eachCb - Each callback
* @access protected
*/
wrapRangeInMappedTextNode(dict, start, end, filterCb, eachCb) {
dict.nodes.every((n, i) => {
const sibl = dict.nodes[i + 1];
if (typeof sibl === "undefined" || sibl.start > start) {
if (!filterCb(n.node)) {
return false;
}
const s = start - n.start, e = (end > n.end ? n.end : end) - n.start, startStr = dict.value.substr(0, n.start), endStr = dict.value.substr(e + n.start);
n.node = this.wrapRangeInTextNode(n.node, s, e);
dict.value = startStr + endStr;
dict.nodes.forEach((k, j) => {
if (j >= i) {
if (dict.nodes[j].start > 0 && j !== i) {
dict.nodes[j].start -= e;
}
dict.nodes[j].end -= e;
}
});
end -= e;
eachCb(n.node.previousSibling, n.start);
if (end > n.end) {
start = n.end;
} else {
return false;
}
}
return true;
});
}
/**
* Filter callback before each wrapping
* @callback Mark~wrapMatchesFilterCallback
* @param {string} match - The matching string
* @param {HTMLElement} node - The text node where the match occurs
*/
/**
* Callback for each wrapped element
* @callback Mark~wrapMatchesEachCallback
* @param {HTMLElement} element - The marked DOM element
*/
/**
* Callback on end
* @callback Mark~wrapMatchesEndCallback
*/
/**
* Wraps the instance element and class around matches within single HTML
* elements in all contexts
* @param {RegExp} regex - The regular expression to be searched for
* @param {number} ignoreGroups - A number indicating the amount of RegExp
* matching groups to ignore
* @param {Mark~wrapMatchesFilterCallback} filterCb
* @param {Mark~wrapMatchesEachCallback} eachCb
* @param {Mark~wrapMatchesEndCallback} endCb
* @access protected
*/
wrapMatches(regex, ignoreGroups, filterCb, eachCb, endCb) {
const matchIdx = ignoreGroups === 0 ? 0 : ignoreGroups + 1;
this.getTextNodes((dict) => {
dict.nodes.forEach((node) => {
node = node.node;
let match;
while ((match = regex.exec(node.textContent)) !== null && match[matchIdx] !== "") {
if (!filterCb(match[matchIdx], node)) {
continue;
}
let pos = match.index;
if (matchIdx !== 0) {
for (let i = 1; i < matchIdx; i++) {
pos += match[i].length;
}
}
node = this.wrapRangeInTextNode(
node,
pos,
pos + match[matchIdx].length
);
eachCb(node.previousSibling);
regex.lastIndex = 0;
}
});
endCb();
});
}
/**
* Callback for each wrapped element
* @callback Mark~wrapMatchesAcrossElementsEachCallback
* @param {HTMLElement} element - The marked DOM element
*/
/**
* Filter callback before each wrapping
* @callback Mark~wrapMatchesAcrossElementsFilterCallback
* @param {string} match - The matching string
* @param {HTMLElement} node - The text node where the match occurs
*/
/**
* Callback on end
* @callback Mark~wrapMatchesAcrossElementsEndCallback
*/
/**
* Wraps the instance element and class around matches across all HTML
* elements in all contexts
* @param {RegExp} regex - The regular expression to be searched for
* @param {number} ignoreGroups - A number indicating the amount of RegExp
* matching groups to ignore
* @param {Mark~wrapMatchesAcrossElementsFilterCallback} filterCb
* @param {Mark~wrapMatchesAcrossElementsEachCallback} eachCb
* @param {Mark~wrapMatchesAcrossElementsEndCallback} endCb
* @access protected
*/
wrapMatchesAcrossElements(regex, ignoreGroups, filterCb, eachCb, endCb) {
const matchIdx = ignoreGroups === 0 ? 0 : ignoreGroups + 1;
this.getTextNodes((dict) => {
let match;
while ((match = regex.exec(dict.value)) !== null && match[matchIdx] !== "") {
let start = match.index;
if (matchIdx !== 0) {
for (let i = 1; i < matchIdx; i++) {
start += match[i].length;
}
}
const end = start + match[matchIdx].length;
this.wrapRangeInMappedTextNode(dict, start, end, (node) => {
return filterCb(match[matchIdx], node);
}, (node, lastIndex) => {
regex.lastIndex = lastIndex;
eachCb(node);
});
}
endCb();
});
}
/**
* Callback for each wrapped element
* @callback Mark~wrapRangeFromIndexEachCallback
* @param {HTMLElement} element - The marked DOM element
* @param {Mark~rangeObject} range - the current range object; provided
* start and length values will be numeric integers modified from the
* provided original ranges.
*/
/**
* Filter callback before each wrapping
* @callback Mark~wrapRangeFromIndexFilterCallback
* @param {HTMLElement} node - The text node which includes the range
* @param {Mark~rangeObject} range - the current range object
* @param {string} match - string extracted from the matching range
* @param {number} counter - A counter indicating the number of all marks
*/
/**
* Callback on end
* @callback Mark~wrapRangeFromIndexEndCallback
*/
/**
* Wraps the indicated ranges across all HTML elements in all contexts
* @param {Mark~setOfRanges} ranges
* @param {Mark~wrapRangeFromIndexFilterCallback} filterCb
* @param {Mark~wrapRangeFromIndexEachCallback} eachCb
* @param {Mark~wrapRangeFromIndexEndCallback} endCb
* @access protected
*/
wrapRangeFromIndex(ranges, filterCb, eachCb, endCb) {
this.getTextNodes((dict) => {
const originalLength = dict.value.length;
ranges.forEach((range, counter) => {
let { start, end, valid } = this.checkWhitespaceRanges(
range,
originalLength,
dict.value
);
if (valid) {
this.wrapRangeInMappedTextNode(dict, start, end, (node) => {
return filterCb(
node,
range,
dict.value.substring(start, end),
counter
);
}, (node) => {
eachCb(node, range);
});
}
});
endCb();
});
}
/**
* Unwraps the specified DOM node with its content (text nodes or HTML)
* without destroying possibly present events (using innerHTML) and
* normalizes the parent at the end (merge splitted text nodes)
* @param {HTMLElement} node - The DOM node to unwrap
* @access protected
*/
unwrapMatches(node) {
const parent = node.parentNode;
let docFrag = document.createDocumentFragment();
while (node.firstChild) {
docFrag.appendChild(node.removeChild(node.firstChild));
}
parent.replaceChild(docFrag, node);
if (!this.ie) {
parent.normalize();
} else {
this.normalizeTextNode(parent);
}
}
/**
* Normalizes text nodes. It's a workaround for the native normalize method
* that has a bug in IE (see attached link). Should only be used in IE
* browsers as it's slower than the native method.
* @see {@link http://tinyurl.com/z5asa8c}
* @param {HTMLElement} node - The DOM node to normalize
* @access protected
*/
normalizeTextNode(node) {
if (!node) {
return;
}
if (node.nodeType === 3) {
while (node.nextSibling && node.nextSibling.nodeType === 3) {
node.nodeValue += node.nextSibling.nodeValue;
node.parentNode.removeChild(node.nextSibling);
}
} else {
this.normalizeTextNode(node.firstChild);
}
this.normalizeTextNode(node.nextSibling);
}
/**
* Callback when finished
* @callback Mark~commonDoneCallback
* @param {number} totalMatches - The number of marked elements
*/
/**
* @typedef Mark~commonOptions
* @type {object.<string>}
* @property {string} [element="mark"] - HTML element tag name
* @property {string} [className] - An optional class name
* @property {string[]} [exclude] - An array with exclusion selectors.
* Elements matching those selectors will be ignored
* @property {boolean} [iframes=false] - Whether to search inside iframes
* @property {Mark~commonDoneCallback} [done]
* @property {boolean} [debug=false] - Wheter to log messages
* @property {object} [log=window.console] - Where to log messages (only if
* debug is true)
*/
/**
* Callback for each marked element
* @callback Mark~markRegExpEachCallback
* @param {HTMLElement} element - The marked DOM element
*/
/**
* Callback if there were no matches
* @callback Mark~markRegExpNoMatchCallback
* @param {RegExp} regexp - The regular expression
*/
/**
* Callback to filter matches
* @callback Mark~markRegExpFilterCallback
* @param {HTMLElement} textNode - The text node which includes the match
* @param {string} match - The matching string for the RegExp
* @param {number} counter - A counter indicating the number of all marks
*/
/**
* These options also include the common options from
* {@link Mark~commonOptions}
* @typedef Mark~markRegExpOptions
* @type {object.<string>}
* @property {Mark~markRegExpEachCallback} [each]
* @property {Mark~markRegExpNoMatchCallback} [noMatch]
* @property {Mark~markRegExpFilterCallback} [filter]
*/
/**
* Marks a custom regular expression
* @param {RegExp} regexp - The regular expression
* @param {Mark~markRegExpOptions} [opt] - Optional options object
* @access public
*/
markRegExp(regexp, opt) {
this.opt = opt;
this.log(`Searching with expression "${regexp}"`);
let totalMatches = 0, fn = "wrapMatches";
const eachCb = (element) => {
totalMatches++;
this.opt.each(element);
};
if (this.opt.acrossElements) {
fn = "wrapMatchesAcrossElements";
}
this[fn](regexp, this.opt.ignoreGroups, (match, node) => {
return this.opt.filter(node, match, totalMatches);
}, eachCb, () => {
if (totalMatches === 0) {
this.opt.noMatch(regexp);
}
this.opt.done(totalMatches);
});
}
/**
* Callback for each marked element
* @callback Mark~markEachCallback
* @param {HTMLElement} element - The marked DOM element
*/
/**
* Callback if there were no matches
* @callback Mark~markNoMatchCallback
* @param {RegExp} term - The search term that was not found
*/
/**
* Callback to filter matches
* @callback Mark~markFilterCallback
* @param {HTMLElement} textNode - The text node which includes the match
* @param {string} match - The matching term
* @param {number} totalCounter - A counter indicating the number of all
* marks
* @param {number} termCounter - A counter indicating the number of marks
* for the specific match
*/
/**
* @typedef Mark~markAccuracyObject
* @type {object.<string>}
* @property {string} value - A accuracy string value
* @property {string[]} limiters - A custom array of limiters. For example
* <code>["-", ","]</code>
*/
/**
* @typedef Mark~markAccuracySetting
* @type {string}
* @property {"partially"|"complementary"|"exactly"|Mark~markAccuracyObject}
* [accuracy="partially"] - Either one of the following string values:
* <ul>
* <li><i>partially</i>: When searching for "lor" only "lor" inside
* "lorem" will be marked</li>
* <li><i>complementary</i>: When searching for "lor" the whole word
* "lorem" will be marked</li>
* <li><i>exactly</i>: When searching for "lor" only those exact words
* will be marked. In this example nothing inside "lorem". This value
* is equivalent to the previous option <i>wordBoundary</i></li>
* </ul>
* Or an object containing two properties:
* <ul>
* <li><i>value</i>: One of the above named string values</li>
* <li><i>limiters</i>: A custom array of string limiters for accuracy
* "exactly" or "complementary"</li>
* </ul>
*/
/**
* @typedef Mark~markWildcardsSetting
* @type {string}
* @property {"disabled"|"enabled"|"withSpaces"}
* [wildcards="disabled"] - Set to any of the following string values:
* <ul>
* <li><i>disabled</i>: Disable wildcard usage</li>
* <li><i>enabled</i>: When searching for "lor?m", the "?" will match zero
* or one non-space character (e.g. "lorm", "loram", "lor3m", etc). When
* searching for "lor*m", the "*" will match zero or more non-space
* characters (e.g. "lorm", "loram", "lor123m", etc).</li>
* <li><i>withSpaces</i>: When searching for "lor?m", the "?" will
* match zero or one space or non-space character (e.g. "lor m", "loram",
* etc). When searching for "lor*m", the "*" will match zero or more space
* or non-space characters (e.g. "lorm", "lore et dolor ipsum", "lor: m",
* etc).</li>
* </ul>
*/
/**
* @typedef Mark~markIgnorePunctuationSetting
* @type {string[]}
* @property {string} The strings in this setting will contain punctuation
* marks that will be ignored:
* <ul>
* <li>These punctuation marks can be between any characters, e.g. setting
* this option to <code>["'"]</code> would match "Worlds", "World's" and
* "Wo'rlds"</li>
* <li>One or more apostrophes between the letters would still produce a
* match (e.g. "W'o''r'l'd's").</li>
* <li>A typical setting for this option could be as follows:
* <pre>ignorePunctuation: ":;.,-–—‒_(){}[]!'\"+=".split(""),</pre> This
* setting includes common punctuation as well as a minus, en-dash,
* em-dash and figure-dash
* ({@link https://en.wikipedia.org/wiki/Dash#Figure_dash ref}), as well
* as an underscore.</li>
* </ul>
*/
/**
* These options also include the common options from
* {@link Mark~commonOptions}
* @typedef Mark~markOptions
* @type {object.<string>}
* @property {boolean} [separateWordSearch=true] - Whether to search for
* each word separated by a blank instead of the complete term
* @property {boolean} [diacritics=true] - If diacritic characters should be
* matched. ({@link https://en.wikipedia.org/wiki/Diacritic Diacritics})
* @property {object} [synonyms] - An object with synonyms. The key will be
* a synonym for the value and the value for the key
* @property {Mark~markAccuracySetting} [accuracy]
* @property {Mark~markWildcardsSetting} [wildcards]
* @property {boolean} [acrossElements=false] - Whether to find matches
* across HTML elements. By default, only matches within single HTML
* elements will be found
* @property {boolean} [ignoreJoiners=false] - Whether to ignore word
* joiners inside of key words. These include soft-hyphens, zero-width
* space, zero-width non-joiners and zero-width joiners.
* @property {Mark~markIgnorePunctuationSetting} [ignorePunctuation]
* @property {Mark~markEachCallback} [each]
* @property {Mark~markNoMatchCallback} [noMatch]
* @property {Mark~markFilterCallback} [filter]
*/
/**
* Marks the specified search terms
* @param {string|string[]} [sv] - Search value, either a search string or
* an array containing multiple search strings
* @param {Mark~markOptions} [opt] - Optional options object
* @access public
*/
mark(sv, opt) {
this.opt = opt;
let totalMatches = 0, fn = "wrapMatches";
const {
keywords: kwArr,
length: kwArrLen
} = this.getSeparatedKeywords(typeof sv === "string" ? [sv] : sv), sens = this.opt.caseSensitive ? "" : "i", handler = (kw) => {
let regex = new RegExp(this.createRegExp(kw), `gm${sens}`), matches = 0;
this.log(`Searching with expression "${regex}"`);
this[fn](regex, 1, (term, node) => {
return this.opt.filter(node, kw, totalMatches, matches);
}, (element) => {
matches++;
totalMatches++;
this.opt.each(element);
}, () => {
if (matches === 0) {
this.opt.noMatch(kw);
}
if (kwArr[kwArrLen - 1] === kw) {
this.opt.done(totalMatches);
} else {
handler(kwArr[kwArr.indexOf(kw) + 1]);
}
});
};
if (this.opt.acrossElements) {
fn = "wrapMatchesAcrossElements";
}
if (kwArrLen === 0) {
this.opt.done(totalMatches);
} else {
handler(kwArr[0]);
}
}
/**
* Callback for each marked element
* @callback Mark~markRangesEachCallback
* @param {HTMLElement} element - The marked DOM element
* @param {array} range - array of range start and end points
*/
/**
* Callback if a processed range is invalid, out-of-bounds, overlaps another
* range, or only matches whitespace
* @callback Mark~markRangesNoMatchCallback
* @param {Mark~rangeObject} range - a range object
*/
/**
* Callback to filter matches
* @callback Mark~markRangesFilterCallback
* @param {HTMLElement} node - The text node which includes the range
* @param {array} range - array of range start and end points
* @param {string} match - string extracted from the matching range
* @param {number} counter - A counter indicating the number of all marks
*/
/**
* These options also include the common options from
* {@link Mark~commonOptions}
* @typedef Mark~markRangesOptions
* @type {object.<string>}
* @property {Mark~markRangesEachCallback} [each]
* @property {Mark~markRangesNoMatchCallback} [noMatch]
* @property {Mark~markRangesFilterCallback} [filter]
*/
/**
* Marks an array of objects containing a start with an end or length of the
* string to mark
* @param {Mark~setOfRanges} rawRanges - The original (preprocessed)
* array of objects
* @param {Mark~markRangesOptions} [opt] - Optional options object
* @access public
*/
markRanges(rawRanges, opt) {
this.opt = opt;
let totalMatches = 0, ranges = this.checkRanges(rawRanges);
if (ranges && ranges.length) {
this.log(
"Starting to mark with the following ranges: " + JSON.stringify(ranges)
);
this.wrapRangeFromIndex(
ranges,
(node, range, match, counter) => {
return this.opt.filter(node, range, match, counter);
},
(element, range) => {
totalMatches++;
this.opt.each(element, range);
},
() => {
this.opt.done(totalMatches);
}
);
} else {
this.opt.done(totalMatches);
}
}
/**
* Removes all marked elements inside the context with their HTML and
* normalizes the parent at the end
* @param {Mark~commonOptions} [opt] - Optional options object
* @access public
*/
unmark(opt) {
this.opt = opt;
let sel = this.opt.element ? this.opt.element : "*";
sel += "[data-markjs]";
if (this.opt.className) {
sel += `.${this.opt.className}`;
}
this.log(`Removal selector "${sel}"`);
this.iterator.forEachNode(NodeFilter.SHOW_ELEMENT, (node) => {
this.unwrapMatches(node);
}, (node) => {
const matchesSel = DOMIterator.matches(node, sel), matchesExclude = this.matchesExclude(node);
if (!matchesSel || matchesExclude) {
return NodeFilter.FILTER_REJECT;
} else {
return NodeFilter.FILTER_ACCEPT;
}
}, this.opt.done);
}
};
// node_modules/mark.js/src/vanilla.js
function Mark2(ctx) {
const instance = new Mark(ctx);
this.mark = (sv, opt) => {
instance.mark(sv, opt);
return this;
};
this.markRegExp = (sv, opt) => {
instance.markRegExp(sv, opt);
return this;
};
this.markRanges = (sv, opt) => {
instance.markRanges(sv, opt);
return this;
};
this.unmark = (opt) => {
instance.unmark(opt);
return this;
};
return this;
}
export {
Mark2 as default
};
//# sourceMappingURL=vitepress___mark__js_src_vanilla__js.js.map
```
--------------------------------------------------------------------------------
/docs/.vitepress/cache/deps/vitepress___minisearch.js:
--------------------------------------------------------------------------------
```javascript
// node_modules/minisearch/dist/es/index.js
var ENTRIES = "ENTRIES";
var KEYS = "KEYS";
var VALUES = "VALUES";
var LEAF = "";
var TreeIterator = class {
constructor(set, type) {
const node = set._tree;
const keys = Array.from(node.keys());
this.set = set;
this._type = type;
this._path = keys.length > 0 ? [{ node, keys }] : [];
}
next() {
const value = this.dive();
this.backtrack();
return value;
}
dive() {
if (this._path.length === 0) {
return { done: true, value: void 0 };
}
const { node, keys } = last$1(this._path);
if (last$1(keys) === LEAF) {
return { done: false, value: this.result() };
}
const child = node.get(last$1(keys));
this._path.push({ node: child, keys: Array.from(child.keys()) });
return this.dive();
}
backtrack() {
if (this._path.length === 0) {
return;
}
const keys = last$1(this._path).keys;
keys.pop();
if (keys.length > 0) {
return;
}
this._path.pop();
this.backtrack();
}
key() {
return this.set._prefix + this._path.map(({ keys }) => last$1(keys)).filter((key) => key !== LEAF).join("");
}
value() {
return last$1(this._path).node.get(LEAF);
}
result() {
switch (this._type) {
case VALUES:
return this.value();
case KEYS:
return this.key();
default:
return [this.key(), this.value()];
}
}
[Symbol.iterator]() {
return this;
}
};
var last$1 = (array) => {
return array[array.length - 1];
};
var fuzzySearch = (node, query, maxDistance) => {
const results = /* @__PURE__ */ new Map();
if (query === void 0)
return results;
const n = query.length + 1;
const m = n + maxDistance;
const matrix = new Uint8Array(m * n).fill(maxDistance + 1);
for (let j = 0; j < n; ++j)
matrix[j] = j;
for (let i = 1; i < m; ++i)
matrix[i * n] = i;
recurse(node, query, maxDistance, results, matrix, 1, n, "");
return results;
};
var recurse = (node, query, maxDistance, results, matrix, m, n, prefix) => {
const offset = m * n;
key: for (const key of node.keys()) {
if (key === LEAF) {
const distance = matrix[offset - 1];
if (distance <= maxDistance) {
results.set(prefix, [node.get(key), distance]);
}
} else {
let i = m;
for (let pos = 0; pos < key.length; ++pos, ++i) {
const char = key[pos];
const thisRowOffset = n * i;
const prevRowOffset = thisRowOffset - n;
let minDistance = matrix[thisRowOffset];
const jmin = Math.max(0, i - maxDistance - 1);
const jmax = Math.min(n - 1, i + maxDistance);
for (let j = jmin; j < jmax; ++j) {
const different = char !== query[j];
const rpl = matrix[prevRowOffset + j] + +different;
const del = matrix[prevRowOffset + j + 1] + 1;
const ins = matrix[thisRowOffset + j] + 1;
const dist = matrix[thisRowOffset + j + 1] = Math.min(rpl, del, ins);
if (dist < minDistance)
minDistance = dist;
}
if (minDistance > maxDistance) {
continue key;
}
}
recurse(node.get(key), query, maxDistance, results, matrix, i, n, prefix + key);
}
}
};
var SearchableMap = class _SearchableMap {
/**
* The constructor is normally called without arguments, creating an empty
* map. In order to create a {@link SearchableMap} from an iterable or from an
* object, check {@link SearchableMap.from} and {@link
* SearchableMap.fromObject}.
*
* The constructor arguments are for internal use, when creating derived
* mutable views of a map at a prefix.
*/
constructor(tree = /* @__PURE__ */ new Map(), prefix = "") {
this._size = void 0;
this._tree = tree;
this._prefix = prefix;
}
/**
* Creates and returns a mutable view of this {@link SearchableMap},
* containing only entries that share the given prefix.
*
* ### Usage:
*
* ```javascript
* let map = new SearchableMap()
* map.set("unicorn", 1)
* map.set("universe", 2)
* map.set("university", 3)
* map.set("unique", 4)
* map.set("hello", 5)
*
* let uni = map.atPrefix("uni")
* uni.get("unique") // => 4
* uni.get("unicorn") // => 1
* uni.get("hello") // => undefined
*
* let univer = map.atPrefix("univer")
* univer.get("unique") // => undefined
* univer.get("universe") // => 2
* univer.get("university") // => 3
* ```
*
* @param prefix The prefix
* @return A {@link SearchableMap} representing a mutable view of the original
* Map at the given prefix
*/
atPrefix(prefix) {
if (!prefix.startsWith(this._prefix)) {
throw new Error("Mismatched prefix");
}
const [node, path] = trackDown(this._tree, prefix.slice(this._prefix.length));
if (node === void 0) {
const [parentNode, key] = last(path);
for (const k of parentNode.keys()) {
if (k !== LEAF && k.startsWith(key)) {
const node2 = /* @__PURE__ */ new Map();
node2.set(k.slice(key.length), parentNode.get(k));
return new _SearchableMap(node2, prefix);
}
}
}
return new _SearchableMap(node, prefix);
}
/**
* @see https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Map/clear
*/
clear() {
this._size = void 0;
this._tree.clear();
}
/**
* @see https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Map/delete
* @param key Key to delete
*/
delete(key) {
this._size = void 0;
return remove(this._tree, key);
}
/**
* @see https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Map/entries
* @return An iterator iterating through `[key, value]` entries.
*/
entries() {
return new TreeIterator(this, ENTRIES);
}
/**
* @see https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Map/forEach
* @param fn Iteration function
*/
forEach(fn) {
for (const [key, value] of this) {
fn(key, value, this);
}
}
/**
* Returns a Map of all the entries that have a key within the given edit
* distance from the search key. The keys of the returned Map are the matching
* keys, while the values are two-element arrays where the first element is
* the value associated to the key, and the second is the edit distance of the
* key to the search key.
*
* ### Usage:
*
* ```javascript
* let map = new SearchableMap()
* map.set('hello', 'world')
* map.set('hell', 'yeah')
* map.set('ciao', 'mondo')
*
* // Get all entries that match the key 'hallo' with a maximum edit distance of 2
* map.fuzzyGet('hallo', 2)
* // => Map(2) { 'hello' => ['world', 1], 'hell' => ['yeah', 2] }
*
* // In the example, the "hello" key has value "world" and edit distance of 1
* // (change "e" to "a"), the key "hell" has value "yeah" and edit distance of 2
* // (change "e" to "a", delete "o")
* ```
*
* @param key The search key
* @param maxEditDistance The maximum edit distance (Levenshtein)
* @return A Map of the matching keys to their value and edit distance
*/
fuzzyGet(key, maxEditDistance) {
return fuzzySearch(this._tree, key, maxEditDistance);
}
/**
* @see https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Map/get
* @param key Key to get
* @return Value associated to the key, or `undefined` if the key is not
* found.
*/
get(key) {
const node = lookup(this._tree, key);
return node !== void 0 ? node.get(LEAF) : void 0;
}
/**
* @see https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Map/has
* @param key Key
* @return True if the key is in the map, false otherwise
*/
has(key) {
const node = lookup(this._tree, key);
return node !== void 0 && node.has(LEAF);
}
/**
* @see https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Map/keys
* @return An `Iterable` iterating through keys
*/
keys() {
return new TreeIterator(this, KEYS);
}
/**
* @see https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Map/set
* @param key Key to set
* @param value Value to associate to the key
* @return The {@link SearchableMap} itself, to allow chaining
*/
set(key, value) {
if (typeof key !== "string") {
throw new Error("key must be a string");
}
this._size = void 0;
const node = createPath(this._tree, key);
node.set(LEAF, value);
return this;
}
/**
* @see https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Map/size
*/
get size() {
if (this._size) {
return this._size;
}
this._size = 0;
const iter = this.entries();
while (!iter.next().done)
this._size += 1;
return this._size;
}
/**
* Updates the value at the given key using the provided function. The function
* is called with the current value at the key, and its return value is used as
* the new value to be set.
*
* ### Example:
*
* ```javascript
* // Increment the current value by one
* searchableMap.update('somekey', (currentValue) => currentValue == null ? 0 : currentValue + 1)
* ```
*
* If the value at the given key is or will be an object, it might not require
* re-assignment. In that case it is better to use `fetch()`, because it is
* faster.
*
* @param key The key to update
* @param fn The function used to compute the new value from the current one
* @return The {@link SearchableMap} itself, to allow chaining
*/
update(key, fn) {
if (typeof key !== "string") {
throw new Error("key must be a string");
}
this._size = void 0;
const node = createPath(this._tree, key);
node.set(LEAF, fn(node.get(LEAF)));
return this;
}
/**
* Fetches the value of the given key. If the value does not exist, calls the
* given function to create a new value, which is inserted at the given key
* and subsequently returned.
*
* ### Example:
*
* ```javascript
* const map = searchableMap.fetch('somekey', () => new Map())
* map.set('foo', 'bar')
* ```
*
* @param key The key to update
* @param initial A function that creates a new value if the key does not exist
* @return The existing or new value at the given key
*/
fetch(key, initial) {
if (typeof key !== "string") {
throw new Error("key must be a string");
}
this._size = void 0;
const node = createPath(this._tree, key);
let value = node.get(LEAF);
if (value === void 0) {
node.set(LEAF, value = initial());
}
return value;
}
/**
* @see https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Map/values
* @return An `Iterable` iterating through values.
*/
values() {
return new TreeIterator(this, VALUES);
}
/**
* @see https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Map/@@iterator
*/
[Symbol.iterator]() {
return this.entries();
}
/**
* Creates a {@link SearchableMap} from an `Iterable` of entries
*
* @param entries Entries to be inserted in the {@link SearchableMap}
* @return A new {@link SearchableMap} with the given entries
*/
static from(entries) {
const tree = new _SearchableMap();
for (const [key, value] of entries) {
tree.set(key, value);
}
return tree;
}
/**
* Creates a {@link SearchableMap} from the iterable properties of a JavaScript object
*
* @param object Object of entries for the {@link SearchableMap}
* @return A new {@link SearchableMap} with the given entries
*/
static fromObject(object) {
return _SearchableMap.from(Object.entries(object));
}
};
var trackDown = (tree, key, path = []) => {
if (key.length === 0 || tree == null) {
return [tree, path];
}
for (const k of tree.keys()) {
if (k !== LEAF && key.startsWith(k)) {
path.push([tree, k]);
return trackDown(tree.get(k), key.slice(k.length), path);
}
}
path.push([tree, key]);
return trackDown(void 0, "", path);
};
var lookup = (tree, key) => {
if (key.length === 0 || tree == null) {
return tree;
}
for (const k of tree.keys()) {
if (k !== LEAF && key.startsWith(k)) {
return lookup(tree.get(k), key.slice(k.length));
}
}
};
var createPath = (node, key) => {
const keyLength = key.length;
outer: for (let pos = 0; node && pos < keyLength; ) {
for (const k of node.keys()) {
if (k !== LEAF && key[pos] === k[0]) {
const len = Math.min(keyLength - pos, k.length);
let offset = 1;
while (offset < len && key[pos + offset] === k[offset])
++offset;
const child2 = node.get(k);
if (offset === k.length) {
node = child2;
} else {
const intermediate = /* @__PURE__ */ new Map();
intermediate.set(k.slice(offset), child2);
node.set(key.slice(pos, pos + offset), intermediate);
node.delete(k);
node = intermediate;
}
pos += offset;
continue outer;
}
}
const child = /* @__PURE__ */ new Map();
node.set(key.slice(pos), child);
return child;
}
return node;
};
var remove = (tree, key) => {
const [node, path] = trackDown(tree, key);
if (node === void 0) {
return;
}
node.delete(LEAF);
if (node.size === 0) {
cleanup(path);
} else if (node.size === 1) {
const [key2, value] = node.entries().next().value;
merge(path, key2, value);
}
};
var cleanup = (path) => {
if (path.length === 0) {
return;
}
const [node, key] = last(path);
node.delete(key);
if (node.size === 0) {
cleanup(path.slice(0, -1));
} else if (node.size === 1) {
const [key2, value] = node.entries().next().value;
if (key2 !== LEAF) {
merge(path.slice(0, -1), key2, value);
}
}
};
var merge = (path, key, value) => {
if (path.length === 0) {
return;
}
const [node, nodeKey] = last(path);
node.set(nodeKey + key, value);
node.delete(nodeKey);
};
var last = (array) => {
return array[array.length - 1];
};
var OR = "or";
var AND = "and";
var AND_NOT = "and_not";
var MiniSearch = class _MiniSearch {
/**
* @param options Configuration options
*
* ### Examples:
*
* ```javascript
* // Create a search engine that indexes the 'title' and 'text' fields of your
* // documents:
* const miniSearch = new MiniSearch({ fields: ['title', 'text'] })
* ```
*
* ### ID Field:
*
* ```javascript
* // Your documents are assumed to include a unique 'id' field, but if you want
* // to use a different field for document identification, you can set the
* // 'idField' option:
* const miniSearch = new MiniSearch({ idField: 'key', fields: ['title', 'text'] })
* ```
*
* ### Options and defaults:
*
* ```javascript
* // The full set of options (here with their default value) is:
* const miniSearch = new MiniSearch({
* // idField: field that uniquely identifies a document
* idField: 'id',
*
* // extractField: function used to get the value of a field in a document.
* // By default, it assumes the document is a flat object with field names as
* // property keys and field values as string property values, but custom logic
* // can be implemented by setting this option to a custom extractor function.
* extractField: (document, fieldName) => document[fieldName],
*
* // tokenize: function used to split fields into individual terms. By
* // default, it is also used to tokenize search queries, unless a specific
* // `tokenize` search option is supplied. When tokenizing an indexed field,
* // the field name is passed as the second argument.
* tokenize: (string, _fieldName) => string.split(SPACE_OR_PUNCTUATION),
*
* // processTerm: function used to process each tokenized term before
* // indexing. It can be used for stemming and normalization. Return a falsy
* // value in order to discard a term. By default, it is also used to process
* // search queries, unless a specific `processTerm` option is supplied as a
* // search option. When processing a term from a indexed field, the field
* // name is passed as the second argument.
* processTerm: (term, _fieldName) => term.toLowerCase(),
*
* // searchOptions: default search options, see the `search` method for
* // details
* searchOptions: undefined,
*
* // fields: document fields to be indexed. Mandatory, but not set by default
* fields: undefined
*
* // storeFields: document fields to be stored and returned as part of the
* // search results.
* storeFields: []
* })
* ```
*/
constructor(options) {
if ((options === null || options === void 0 ? void 0 : options.fields) == null) {
throw new Error('MiniSearch: option "fields" must be provided');
}
const autoVacuum = options.autoVacuum == null || options.autoVacuum === true ? defaultAutoVacuumOptions : options.autoVacuum;
this._options = {
...defaultOptions,
...options,
autoVacuum,
searchOptions: { ...defaultSearchOptions, ...options.searchOptions || {} },
autoSuggestOptions: { ...defaultAutoSuggestOptions, ...options.autoSuggestOptions || {} }
};
this._index = new SearchableMap();
this._documentCount = 0;
this._documentIds = /* @__PURE__ */ new Map();
this._idToShortId = /* @__PURE__ */ new Map();
this._fieldIds = {};
this._fieldLength = /* @__PURE__ */ new Map();
this._avgFieldLength = [];
this._nextId = 0;
this._storedFields = /* @__PURE__ */ new Map();
this._dirtCount = 0;
this._currentVacuum = null;
this._enqueuedVacuum = null;
this._enqueuedVacuumConditions = defaultVacuumConditions;
this.addFields(this._options.fields);
}
/**
* Adds a document to the index
*
* @param document The document to be indexed
*/
add(document) {
const { extractField, tokenize, processTerm, fields, idField } = this._options;
const id = extractField(document, idField);
if (id == null) {
throw new Error(`MiniSearch: document does not have ID field "${idField}"`);
}
if (this._idToShortId.has(id)) {
throw new Error(`MiniSearch: duplicate ID ${id}`);
}
const shortDocumentId = this.addDocumentId(id);
this.saveStoredFields(shortDocumentId, document);
for (const field of fields) {
const fieldValue = extractField(document, field);
if (fieldValue == null)
continue;
const tokens = tokenize(fieldValue.toString(), field);
const fieldId = this._fieldIds[field];
const uniqueTerms = new Set(tokens).size;
this.addFieldLength(shortDocumentId, fieldId, this._documentCount - 1, uniqueTerms);
for (const term of tokens) {
const processedTerm = processTerm(term, field);
if (Array.isArray(processedTerm)) {
for (const t of processedTerm) {
this.addTerm(fieldId, shortDocumentId, t);
}
} else if (processedTerm) {
this.addTerm(fieldId, shortDocumentId, processedTerm);
}
}
}
}
/**
* Adds all the given documents to the index
*
* @param documents An array of documents to be indexed
*/
addAll(documents) {
for (const document of documents)
this.add(document);
}
/**
* Adds all the given documents to the index asynchronously.
*
* Returns a promise that resolves (to `undefined`) when the indexing is done.
* This method is useful when index many documents, to avoid blocking the main
* thread. The indexing is performed asynchronously and in chunks.
*
* @param documents An array of documents to be indexed
* @param options Configuration options
* @return A promise resolving to `undefined` when the indexing is done
*/
addAllAsync(documents, options = {}) {
const { chunkSize = 10 } = options;
const acc = { chunk: [], promise: Promise.resolve() };
const { chunk, promise } = documents.reduce(({ chunk: chunk2, promise: promise2 }, document, i) => {
chunk2.push(document);
if ((i + 1) % chunkSize === 0) {
return {
chunk: [],
promise: promise2.then(() => new Promise((resolve) => setTimeout(resolve, 0))).then(() => this.addAll(chunk2))
};
} else {
return { chunk: chunk2, promise: promise2 };
}
}, acc);
return promise.then(() => this.addAll(chunk));
}
/**
* Removes the given document from the index.
*
* The document to remove must NOT have changed between indexing and removal,
* otherwise the index will be corrupted.
*
* This method requires passing the full document to be removed (not just the
* ID), and immediately removes the document from the inverted index, allowing
* memory to be released. A convenient alternative is {@link
* MiniSearch#discard}, which needs only the document ID, and has the same
* visible effect, but delays cleaning up the index until the next vacuuming.
*
* @param document The document to be removed
*/
remove(document) {
const { tokenize, processTerm, extractField, fields, idField } = this._options;
const id = extractField(document, idField);
if (id == null) {
throw new Error(`MiniSearch: document does not have ID field "${idField}"`);
}
const shortId = this._idToShortId.get(id);
if (shortId == null) {
throw new Error(`MiniSearch: cannot remove document with ID ${id}: it is not in the index`);
}
for (const field of fields) {
const fieldValue = extractField(document, field);
if (fieldValue == null)
continue;
const tokens = tokenize(fieldValue.toString(), field);
const fieldId = this._fieldIds[field];
const uniqueTerms = new Set(tokens).size;
this.removeFieldLength(shortId, fieldId, this._documentCount, uniqueTerms);
for (const term of tokens) {
const processedTerm = processTerm(term, field);
if (Array.isArray(processedTerm)) {
for (const t of processedTerm) {
this.removeTerm(fieldId, shortId, t);
}
} else if (processedTerm) {
this.removeTerm(fieldId, shortId, processedTerm);
}
}
}
this._storedFields.delete(shortId);
this._documentIds.delete(shortId);
this._idToShortId.delete(id);
this._fieldLength.delete(shortId);
this._documentCount -= 1;
}
/**
* Removes all the given documents from the index. If called with no arguments,
* it removes _all_ documents from the index.
*
* @param documents The documents to be removed. If this argument is omitted,
* all documents are removed. Note that, for removing all documents, it is
* more efficient to call this method with no arguments than to pass all
* documents.
*/
removeAll(documents) {
if (documents) {
for (const document of documents)
this.remove(document);
} else if (arguments.length > 0) {
throw new Error("Expected documents to be present. Omit the argument to remove all documents.");
} else {
this._index = new SearchableMap();
this._documentCount = 0;
this._documentIds = /* @__PURE__ */ new Map();
this._idToShortId = /* @__PURE__ */ new Map();
this._fieldLength = /* @__PURE__ */ new Map();
this._avgFieldLength = [];
this._storedFields = /* @__PURE__ */ new Map();
this._nextId = 0;
}
}
/**
* Discards the document with the given ID, so it won't appear in search results
*
* It has the same visible effect of {@link MiniSearch.remove} (both cause the
* document to stop appearing in searches), but a different effect on the
* internal data structures:
*
* - {@link MiniSearch#remove} requires passing the full document to be
* removed as argument, and removes it from the inverted index immediately.
*
* - {@link MiniSearch#discard} instead only needs the document ID, and
* works by marking the current version of the document as discarded, so it
* is immediately ignored by searches. This is faster and more convenient
* than {@link MiniSearch#remove}, but the index is not immediately
* modified. To take care of that, vacuuming is performed after a certain
* number of documents are discarded, cleaning up the index and allowing
* memory to be released.
*
* After discarding a document, it is possible to re-add a new version, and
* only the new version will appear in searches. In other words, discarding
* and re-adding a document works exactly like removing and re-adding it. The
* {@link MiniSearch.replace} method can also be used to replace a document
* with a new version.
*
* #### Details about vacuuming
*
* Repetite calls to this method would leave obsolete document references in
* the index, invisible to searches. Two mechanisms take care of cleaning up:
* clean up during search, and vacuuming.
*
* - Upon search, whenever a discarded ID is found (and ignored for the
* results), references to the discarded document are removed from the
* inverted index entries for the search terms. This ensures that subsequent
* searches for the same terms do not need to skip these obsolete references
* again.
*
* - In addition, vacuuming is performed automatically by default (see the
* `autoVacuum` field in {@link Options}) after a certain number of
* documents are discarded. Vacuuming traverses all terms in the index,
* cleaning up all references to discarded documents. Vacuuming can also be
* triggered manually by calling {@link MiniSearch#vacuum}.
*
* @param id The ID of the document to be discarded
*/
discard(id) {
const shortId = this._idToShortId.get(id);
if (shortId == null) {
throw new Error(`MiniSearch: cannot discard document with ID ${id}: it is not in the index`);
}
this._idToShortId.delete(id);
this._documentIds.delete(shortId);
this._storedFields.delete(shortId);
(this._fieldLength.get(shortId) || []).forEach((fieldLength, fieldId) => {
this.removeFieldLength(shortId, fieldId, this._documentCount, fieldLength);
});
this._fieldLength.delete(shortId);
this._documentCount -= 1;
this._dirtCount += 1;
this.maybeAutoVacuum();
}
maybeAutoVacuum() {
if (this._options.autoVacuum === false) {
return;
}
const { minDirtFactor, minDirtCount, batchSize, batchWait } = this._options.autoVacuum;
this.conditionalVacuum({ batchSize, batchWait }, { minDirtCount, minDirtFactor });
}
/**
* Discards the documents with the given IDs, so they won't appear in search
* results
*
* It is equivalent to calling {@link MiniSearch#discard} for all the given
* IDs, but with the optimization of triggering at most one automatic
* vacuuming at the end.
*
* Note: to remove all documents from the index, it is faster and more
* convenient to call {@link MiniSearch.removeAll} with no argument, instead
* of passing all IDs to this method.
*/
discardAll(ids) {
const autoVacuum = this._options.autoVacuum;
try {
this._options.autoVacuum = false;
for (const id of ids) {
this.discard(id);
}
} finally {
this._options.autoVacuum = autoVacuum;
}
this.maybeAutoVacuum();
}
/**
* It replaces an existing document with the given updated version
*
* It works by discarding the current version and adding the updated one, so
* it is functionally equivalent to calling {@link MiniSearch#discard}
* followed by {@link MiniSearch#add}. The ID of the updated document should
* be the same as the original one.
*
* Since it uses {@link MiniSearch#discard} internally, this method relies on
* vacuuming to clean up obsolete document references from the index, allowing
* memory to be released (see {@link MiniSearch#discard}).
*
* @param updatedDocument The updated document to replace the old version
* with
*/
replace(updatedDocument) {
const { idField, extractField } = this._options;
const id = extractField(updatedDocument, idField);
this.discard(id);
this.add(updatedDocument);
}
/**
* Triggers a manual vacuuming, cleaning up references to discarded documents
* from the inverted index
*
* Vacuuming is only useful for applications that use the {@link
* MiniSearch#discard} or {@link MiniSearch#replace} methods.
*
* By default, vacuuming is performed automatically when needed (controlled by
* the `autoVacuum` field in {@link Options}), so there is usually no need to
* call this method, unless one wants to make sure to perform vacuuming at a
* specific moment.
*
* Vacuuming traverses all terms in the inverted index in batches, and cleans
* up references to discarded documents from the posting list, allowing memory
* to be released.
*
* The method takes an optional object as argument with the following keys:
*
* - `batchSize`: the size of each batch (1000 by default)
*
* - `batchWait`: the number of milliseconds to wait between batches (10 by
* default)
*
* On large indexes, vacuuming could have a non-negligible cost: batching
* avoids blocking the thread for long, diluting this cost so that it is not
* negatively affecting the application. Nonetheless, this method should only
* be called when necessary, and relying on automatic vacuuming is usually
* better.
*
* It returns a promise that resolves (to undefined) when the clean up is
* completed. If vacuuming is already ongoing at the time this method is
* called, a new one is enqueued immediately after the ongoing one, and a
* corresponding promise is returned. However, no more than one vacuuming is
* enqueued on top of the ongoing one, even if this method is called more
* times (enqueuing multiple ones would be useless).
*
* @param options Configuration options for the batch size and delay. See
* {@link VacuumOptions}.
*/
vacuum(options = {}) {
return this.conditionalVacuum(options);
}
conditionalVacuum(options, conditions) {
if (this._currentVacuum) {
this._enqueuedVacuumConditions = this._enqueuedVacuumConditions && conditions;
if (this._enqueuedVacuum != null) {
return this._enqueuedVacuum;
}
this._enqueuedVacuum = this._currentVacuum.then(() => {
const conditions2 = this._enqueuedVacuumConditions;
this._enqueuedVacuumConditions = defaultVacuumConditions;
return this.performVacuuming(options, conditions2);
});
return this._enqueuedVacuum;
}
if (this.vacuumConditionsMet(conditions) === false) {
return Promise.resolve();
}
this._currentVacuum = this.performVacuuming(options);
return this._currentVacuum;
}
async performVacuuming(options, conditions) {
const initialDirtCount = this._dirtCount;
if (this.vacuumConditionsMet(conditions)) {
const batchSize = options.batchSize || defaultVacuumOptions.batchSize;
const batchWait = options.batchWait || defaultVacuumOptions.batchWait;
let i = 1;
for (const [term, fieldsData] of this._index) {
for (const [fieldId, fieldIndex] of fieldsData) {
for (const [shortId] of fieldIndex) {
if (this._documentIds.has(shortId)) {
continue;
}
if (fieldIndex.size <= 1) {
fieldsData.delete(fieldId);
} else {
fieldIndex.delete(shortId);
}
}
}
if (this._index.get(term).size === 0) {
this._index.delete(term);
}
if (i % batchSize === 0) {
await new Promise((resolve) => setTimeout(resolve, batchWait));
}
i += 1;
}
this._dirtCount -= initialDirtCount;
}
await null;
this._currentVacuum = this._enqueuedVacuum;
this._enqueuedVacuum = null;
}
vacuumConditionsMet(conditions) {
if (conditions == null) {
return true;
}
let { minDirtCount, minDirtFactor } = conditions;
minDirtCount = minDirtCount || defaultAutoVacuumOptions.minDirtCount;
minDirtFactor = minDirtFactor || defaultAutoVacuumOptions.minDirtFactor;
return this.dirtCount >= minDirtCount && this.dirtFactor >= minDirtFactor;
}
/**
* Is `true` if a vacuuming operation is ongoing, `false` otherwise
*/
get isVacuuming() {
return this._currentVacuum != null;
}
/**
* The number of documents discarded since the most recent vacuuming
*/
get dirtCount() {
return this._dirtCount;
}
/**
* A number between 0 and 1 giving an indication about the proportion of
* documents that are discarded, and can therefore be cleaned up by vacuuming.
* A value close to 0 means that the index is relatively clean, while a higher
* value means that the index is relatively dirty, and vacuuming could release
* memory.
*/
get dirtFactor() {
return this._dirtCount / (1 + this._documentCount + this._dirtCount);
}
/**
* Returns `true` if a document with the given ID is present in the index and
* available for search, `false` otherwise
*
* @param id The document ID
*/
has(id) {
return this._idToShortId.has(id);
}
/**
* Returns the stored fields (as configured in the `storeFields` constructor
* option) for the given document ID. Returns `undefined` if the document is
* not present in the index.
*
* @param id The document ID
*/
getStoredFields(id) {
const shortId = this._idToShortId.get(id);
if (shortId == null) {
return void 0;
}
return this._storedFields.get(shortId);
}
/**
* Search for documents matching the given search query.
*
* The result is a list of scored document IDs matching the query, sorted by
* descending score, and each including data about which terms were matched and
* in which fields.
*
* ### Basic usage:
*
* ```javascript
* // Search for "zen art motorcycle" with default options: terms have to match
* // exactly, and individual terms are joined with OR
* miniSearch.search('zen art motorcycle')
* // => [ { id: 2, score: 2.77258, match: { ... } }, { id: 4, score: 1.38629, match: { ... } } ]
* ```
*
* ### Restrict search to specific fields:
*
* ```javascript
* // Search only in the 'title' field
* miniSearch.search('zen', { fields: ['title'] })
* ```
*
* ### Field boosting:
*
* ```javascript
* // Boost a field
* miniSearch.search('zen', { boost: { title: 2 } })
* ```
*
* ### Prefix search:
*
* ```javascript
* // Search for "moto" with prefix search (it will match documents
* // containing terms that start with "moto" or "neuro")
* miniSearch.search('moto neuro', { prefix: true })
* ```
*
* ### Fuzzy search:
*
* ```javascript
* // Search for "ismael" with fuzzy search (it will match documents containing
* // terms similar to "ismael", with a maximum edit distance of 0.2 term.length
* // (rounded to nearest integer)
* miniSearch.search('ismael', { fuzzy: 0.2 })
* ```
*
* ### Combining strategies:
*
* ```javascript
* // Mix of exact match, prefix search, and fuzzy search
* miniSearch.search('ismael mob', {
* prefix: true,
* fuzzy: 0.2
* })
* ```
*
* ### Advanced prefix and fuzzy search:
*
* ```javascript
* // Perform fuzzy and prefix search depending on the search term. Here
* // performing prefix and fuzzy search only on terms longer than 3 characters
* miniSearch.search('ismael mob', {
* prefix: term => term.length > 3
* fuzzy: term => term.length > 3 ? 0.2 : null
* })
* ```
*
* ### Combine with AND:
*
* ```javascript
* // Combine search terms with AND (to match only documents that contain both
* // "motorcycle" and "art")
* miniSearch.search('motorcycle art', { combineWith: 'AND' })
* ```
*
* ### Combine with AND_NOT:
*
* There is also an AND_NOT combinator, that finds documents that match the
* first term, but do not match any of the other terms. This combinator is
* rarely useful with simple queries, and is meant to be used with advanced
* query combinations (see later for more details).
*
* ### Filtering results:
*
* ```javascript
* // Filter only results in the 'fiction' category (assuming that 'category'
* // is a stored field)
* miniSearch.search('motorcycle art', {
* filter: (result) => result.category === 'fiction'
* })
* ```
*
* ### Wildcard query
*
* Searching for an empty string (assuming the default tokenizer) returns no
* results. Sometimes though, one needs to match all documents, like in a
* "wildcard" search. This is possible by passing the special value
* {@link MiniSearch.wildcard} as the query:
*
* ```javascript
* // Return search results for all documents
* miniSearch.search(MiniSearch.wildcard)
* ```
*
* Note that search options such as `filter` and `boostDocument` are still
* applied, influencing which results are returned, and their order:
*
* ```javascript
* // Return search results for all documents in the 'fiction' category
* miniSearch.search(MiniSearch.wildcard, {
* filter: (result) => result.category === 'fiction'
* })
* ```
*
* ### Advanced combination of queries:
*
* It is possible to combine different subqueries with OR, AND, and AND_NOT,
* and even with different search options, by passing a query expression
* tree object as the first argument, instead of a string.
*
* ```javascript
* // Search for documents that contain "zen" and ("motorcycle" or "archery")
* miniSearch.search({
* combineWith: 'AND',
* queries: [
* 'zen',
* {
* combineWith: 'OR',
* queries: ['motorcycle', 'archery']
* }
* ]
* })
*
* // Search for documents that contain ("apple" or "pear") but not "juice" and
* // not "tree"
* miniSearch.search({
* combineWith: 'AND_NOT',
* queries: [
* {
* combineWith: 'OR',
* queries: ['apple', 'pear']
* },
* 'juice',
* 'tree'
* ]
* })
* ```
*
* Each node in the expression tree can be either a string, or an object that
* supports all {@link SearchOptions} fields, plus a `queries` array field for
* subqueries.
*
* Note that, while this can become complicated to do by hand for complex or
* deeply nested queries, it provides a formalized expression tree API for
* external libraries that implement a parser for custom query languages.
*
* @param query Search query
* @param searchOptions Search options. Each option, if not given, defaults to the corresponding value of `searchOptions` given to the constructor, or to the library default.
*/
search(query, searchOptions = {}) {
const { searchOptions: globalSearchOptions } = this._options;
const searchOptionsWithDefaults = { ...globalSearchOptions, ...searchOptions };
const rawResults = this.executeQuery(query, searchOptions);
const results = [];
for (const [docId, { score, terms, match }] of rawResults) {
const quality = terms.length || 1;
const result = {
id: this._documentIds.get(docId),
score: score * quality,
terms: Object.keys(match),
queryTerms: terms,
match
};
Object.assign(result, this._storedFields.get(docId));
if (searchOptionsWithDefaults.filter == null || searchOptionsWithDefaults.filter(result)) {
results.push(result);
}
}
if (query === _MiniSearch.wildcard && searchOptionsWithDefaults.boostDocument == null) {
return results;
}
results.sort(byScore);
return results;
}
/**
* Provide suggestions for the given search query
*
* The result is a list of suggested modified search queries, derived from the
* given search query, each with a relevance score, sorted by descending score.
*
* By default, it uses the same options used for search, except that by
* default it performs prefix search on the last term of the query, and
* combine terms with `'AND'` (requiring all query terms to match). Custom
* options can be passed as a second argument. Defaults can be changed upon
* calling the {@link MiniSearch} constructor, by passing a
* `autoSuggestOptions` option.
*
* ### Basic usage:
*
* ```javascript
* // Get suggestions for 'neuro':
* miniSearch.autoSuggest('neuro')
* // => [ { suggestion: 'neuromancer', terms: [ 'neuromancer' ], score: 0.46240 } ]
* ```
*
* ### Multiple words:
*
* ```javascript
* // Get suggestions for 'zen ar':
* miniSearch.autoSuggest('zen ar')
* // => [
* // { suggestion: 'zen archery art', terms: [ 'zen', 'archery', 'art' ], score: 1.73332 },
* // { suggestion: 'zen art', terms: [ 'zen', 'art' ], score: 1.21313 }
* // ]
* ```
*
* ### Fuzzy suggestions:
*
* ```javascript
* // Correct spelling mistakes using fuzzy search:
* miniSearch.autoSuggest('neromancer', { fuzzy: 0.2 })
* // => [ { suggestion: 'neuromancer', terms: [ 'neuromancer' ], score: 1.03998 } ]
* ```
*
* ### Filtering:
*
* ```javascript
* // Get suggestions for 'zen ar', but only within the 'fiction' category
* // (assuming that 'category' is a stored field):
* miniSearch.autoSuggest('zen ar', {
* filter: (result) => result.category === 'fiction'
* })
* // => [
* // { suggestion: 'zen archery art', terms: [ 'zen', 'archery', 'art' ], score: 1.73332 },
* // { suggestion: 'zen art', terms: [ 'zen', 'art' ], score: 1.21313 }
* // ]
* ```
*
* @param queryString Query string to be expanded into suggestions
* @param options Search options. The supported options and default values
* are the same as for the {@link MiniSearch#search} method, except that by
* default prefix search is performed on the last term in the query, and terms
* are combined with `'AND'`.
* @return A sorted array of suggestions sorted by relevance score.
*/
autoSuggest(queryString, options = {}) {
options = { ...this._options.autoSuggestOptions, ...options };
const suggestions = /* @__PURE__ */ new Map();
for (const { score, terms } of this.search(queryString, options)) {
const phrase = terms.join(" ");
const suggestion = suggestions.get(phrase);
if (suggestion != null) {
suggestion.score += score;
suggestion.count += 1;
} else {
suggestions.set(phrase, { score, terms, count: 1 });
}
}
const results = [];
for (const [suggestion, { score, terms, count }] of suggestions) {
results.push({ suggestion, terms, score: score / count });
}
results.sort(byScore);
return results;
}
/**
* Total number of documents available to search
*/
get documentCount() {
return this._documentCount;
}
/**
* Number of terms in the index
*/
get termCount() {
return this._index.size;
}
/**
* Deserializes a JSON index (serialized with `JSON.stringify(miniSearch)`)
* and instantiates a MiniSearch instance. It should be given the same options
* originally used when serializing the index.
*
* ### Usage:
*
* ```javascript
* // If the index was serialized with:
* let miniSearch = new MiniSearch({ fields: ['title', 'text'] })
* miniSearch.addAll(documents)
*
* const json = JSON.stringify(miniSearch)
* // It can later be deserialized like this:
* miniSearch = MiniSearch.loadJSON(json, { fields: ['title', 'text'] })
* ```
*
* @param json JSON-serialized index
* @param options configuration options, same as the constructor
* @return An instance of MiniSearch deserialized from the given JSON.
*/
static loadJSON(json, options) {
if (options == null) {
throw new Error("MiniSearch: loadJSON should be given the same options used when serializing the index");
}
return this.loadJS(JSON.parse(json), options);
}
/**
* Async equivalent of {@link MiniSearch.loadJSON}
*
* This function is an alternative to {@link MiniSearch.loadJSON} that returns
* a promise, and loads the index in batches, leaving pauses between them to avoid
* blocking the main thread. It tends to be slower than the synchronous
* version, but does not block the main thread, so it can be a better choice
* when deserializing very large indexes.
*
* @param json JSON-serialized index
* @param options configuration options, same as the constructor
* @return A Promise that will resolve to an instance of MiniSearch deserialized from the given JSON.
*/
static async loadJSONAsync(json, options) {
if (options == null) {
throw new Error("MiniSearch: loadJSON should be given the same options used when serializing the index");
}
return this.loadJSAsync(JSON.parse(json), options);
}
/**
* Returns the default value of an option. It will throw an error if no option
* with the given name exists.
*
* @param optionName Name of the option
* @return The default value of the given option
*
* ### Usage:
*
* ```javascript
* // Get default tokenizer
* MiniSearch.getDefault('tokenize')
*
* // Get default term processor
* MiniSearch.getDefault('processTerm')
*
* // Unknown options will throw an error
* MiniSearch.getDefault('notExisting')
* // => throws 'MiniSearch: unknown option "notExisting"'
* ```
*/
static getDefault(optionName) {
if (defaultOptions.hasOwnProperty(optionName)) {
return getOwnProperty(defaultOptions, optionName);
} else {
throw new Error(`MiniSearch: unknown option "${optionName}"`);
}
}
/**
* @ignore
*/
static loadJS(js, options) {
const { index, documentIds, fieldLength, storedFields, serializationVersion } = js;
const miniSearch = this.instantiateMiniSearch(js, options);
miniSearch._documentIds = objectToNumericMap(documentIds);
miniSearch._fieldLength = objectToNumericMap(fieldLength);
miniSearch._storedFields = objectToNumericMap(storedFields);
for (const [shortId, id] of miniSearch._documentIds) {
miniSearch._idToShortId.set(id, shortId);
}
for (const [term, data] of index) {
const dataMap = /* @__PURE__ */ new Map();
for (const fieldId of Object.keys(data)) {
let indexEntry = data[fieldId];
if (serializationVersion === 1) {
indexEntry = indexEntry.ds;
}
dataMap.set(parseInt(fieldId, 10), objectToNumericMap(indexEntry));
}
miniSearch._index.set(term, dataMap);
}
return miniSearch;
}
/**
* @ignore
*/
static async loadJSAsync(js, options) {
const { index, documentIds, fieldLength, storedFields, serializationVersion } = js;
const miniSearch = this.instantiateMiniSearch(js, options);
miniSearch._documentIds = await objectToNumericMapAsync(documentIds);
miniSearch._fieldLength = await objectToNumericMapAsync(fieldLength);
miniSearch._storedFields = await objectToNumericMapAsync(storedFields);
for (const [shortId, id] of miniSearch._documentIds) {
miniSearch._idToShortId.set(id, shortId);
}
let count = 0;
for (const [term, data] of index) {
const dataMap = /* @__PURE__ */ new Map();
for (const fieldId of Object.keys(data)) {
let indexEntry = data[fieldId];
if (serializationVersion === 1) {
indexEntry = indexEntry.ds;
}
dataMap.set(parseInt(fieldId, 10), await objectToNumericMapAsync(indexEntry));
}
if (++count % 1e3 === 0)
await wait(0);
miniSearch._index.set(term, dataMap);
}
return miniSearch;
}
/**
* @ignore
*/
static instantiateMiniSearch(js, options) {
const { documentCount, nextId, fieldIds, averageFieldLength, dirtCount, serializationVersion } = js;
if (serializationVersion !== 1 && serializationVersion !== 2) {
throw new Error("MiniSearch: cannot deserialize an index created with an incompatible version");
}
const miniSearch = new _MiniSearch(options);
miniSearch._documentCount = documentCount;
miniSearch._nextId = nextId;
miniSearch._idToShortId = /* @__PURE__ */ new Map();
miniSearch._fieldIds = fieldIds;
miniSearch._avgFieldLength = averageFieldLength;
miniSearch._dirtCount = dirtCount || 0;
miniSearch._index = new SearchableMap();
return miniSearch;
}
/**
* @ignore
*/
executeQuery(query, searchOptions = {}) {
if (query === _MiniSearch.wildcard) {
return this.executeWildcardQuery(searchOptions);
}
if (typeof query !== "string") {
const options2 = { ...searchOptions, ...query, queries: void 0 };
const results2 = query.queries.map((subquery) => this.executeQuery(subquery, options2));
return this.combineResults(results2, options2.combineWith);
}
const { tokenize, processTerm, searchOptions: globalSearchOptions } = this._options;
const options = { tokenize, processTerm, ...globalSearchOptions, ...searchOptions };
const { tokenize: searchTokenize, processTerm: searchProcessTerm } = options;
const terms = searchTokenize(query).flatMap((term) => searchProcessTerm(term)).filter((term) => !!term);
const queries = terms.map(termToQuerySpec(options));
const results = queries.map((query2) => this.executeQuerySpec(query2, options));
return this.combineResults(results, options.combineWith);
}
/**
* @ignore
*/
executeQuerySpec(query, searchOptions) {
const options = { ...this._options.searchOptions, ...searchOptions };
const boosts = (options.fields || this._options.fields).reduce((boosts2, field) => ({ ...boosts2, [field]: getOwnProperty(options.boost, field) || 1 }), {});
const { boostDocument, weights, maxFuzzy, bm25: bm25params } = options;
const { fuzzy: fuzzyWeight, prefix: prefixWeight } = { ...defaultSearchOptions.weights, ...weights };
const data = this._index.get(query.term);
const results = this.termResults(query.term, query.term, 1, query.termBoost, data, boosts, boostDocument, bm25params);
let prefixMatches;
let fuzzyMatches;
if (query.prefix) {
prefixMatches = this._index.atPrefix(query.term);
}
if (query.fuzzy) {
const fuzzy = query.fuzzy === true ? 0.2 : query.fuzzy;
const maxDistance = fuzzy < 1 ? Math.min(maxFuzzy, Math.round(query.term.length * fuzzy)) : fuzzy;
if (maxDistance)
fuzzyMatches = this._index.fuzzyGet(query.term, maxDistance);
}
if (prefixMatches) {
for (const [term, data2] of prefixMatches) {
const distance = term.length - query.term.length;
if (!distance) {
continue;
}
fuzzyMatches === null || fuzzyMatches === void 0 ? void 0 : fuzzyMatches.delete(term);
const weight = prefixWeight * term.length / (term.length + 0.3 * distance);
this.termResults(query.term, term, weight, query.termBoost, data2, boosts, boostDocument, bm25params, results);
}
}
if (fuzzyMatches) {
for (const term of fuzzyMatches.keys()) {
const [data2, distance] = fuzzyMatches.get(term);
if (!distance) {
continue;
}
const weight = fuzzyWeight * term.length / (term.length + distance);
this.termResults(query.term, term, weight, query.termBoost, data2, boosts, boostDocument, bm25params, results);
}
}
return results;
}
/**
* @ignore
*/
executeWildcardQuery(searchOptions) {
const results = /* @__PURE__ */ new Map();
const options = { ...this._options.searchOptions, ...searchOptions };
for (const [shortId, id] of this._documentIds) {
const score = options.boostDocument ? options.boostDocument(id, "", this._storedFields.get(shortId)) : 1;
results.set(shortId, {
score,
terms: [],
match: {}
});
}
return results;
}
/**
* @ignore
*/
combineResults(results, combineWith = OR) {
if (results.length === 0) {
return /* @__PURE__ */ new Map();
}
const operator = combineWith.toLowerCase();
const combinator = combinators[operator];
if (!combinator) {
throw new Error(`Invalid combination operator: ${combineWith}`);
}
return results.reduce(combinator) || /* @__PURE__ */ new Map();
}
/**
* Allows serialization of the index to JSON, to possibly store it and later
* deserialize it with {@link MiniSearch.loadJSON}.
*
* Normally one does not directly call this method, but rather call the
* standard JavaScript `JSON.stringify()` passing the {@link MiniSearch}
* instance, and JavaScript will internally call this method. Upon
* deserialization, one must pass to {@link MiniSearch.loadJSON} the same
* options used to create the original instance that was serialized.
*
* ### Usage:
*
* ```javascript
* // Serialize the index:
* let miniSearch = new MiniSearch({ fields: ['title', 'text'] })
* miniSearch.addAll(documents)
* const json = JSON.stringify(miniSearch)
*
* // Later, to deserialize it:
* miniSearch = MiniSearch.loadJSON(json, { fields: ['title', 'text'] })
* ```
*
* @return A plain-object serializable representation of the search index.
*/
toJSON() {
const index = [];
for (const [term, fieldIndex] of this._index) {
const data = {};
for (const [fieldId, freqs] of fieldIndex) {
data[fieldId] = Object.fromEntries(freqs);
}
index.push([term, data]);
}
return {
documentCount: this._documentCount,
nextId: this._nextId,
documentIds: Object.fromEntries(this._documentIds),
fieldIds: this._fieldIds,
fieldLength: Object.fromEntries(this._fieldLength),
averageFieldLength: this._avgFieldLength,
storedFields: Object.fromEntries(this._storedFields),
dirtCount: this._dirtCount,
index,
serializationVersion: 2
};
}
/**
* @ignore
*/
termResults(sourceTerm, derivedTerm, termWeight, termBoost, fieldTermData, fieldBoosts, boostDocumentFn, bm25params, results = /* @__PURE__ */ new Map()) {
if (fieldTermData == null)
return results;
for (const field of Object.keys(fieldBoosts)) {
const fieldBoost = fieldBoosts[field];
const fieldId = this._fieldIds[field];
const fieldTermFreqs = fieldTermData.get(fieldId);
if (fieldTermFreqs == null)
continue;
let matchingFields = fieldTermFreqs.size;
const avgFieldLength = this._avgFieldLength[fieldId];
for (const docId of fieldTermFreqs.keys()) {
if (!this._documentIds.has(docId)) {
this.removeTerm(fieldId, docId, derivedTerm);
matchingFields -= 1;
continue;
}
const docBoost = boostDocumentFn ? boostDocumentFn(this._documentIds.get(docId), derivedTerm, this._storedFields.get(docId)) : 1;
if (!docBoost)
continue;
const termFreq = fieldTermFreqs.get(docId);
const fieldLength = this._fieldLength.get(docId)[fieldId];
const rawScore = calcBM25Score(termFreq, matchingFields, this._documentCount, fieldLength, avgFieldLength, bm25params);
const weightedScore = termWeight * termBoost * fieldBoost * docBoost * rawScore;
const result = results.get(docId);
if (result) {
result.score += weightedScore;
assignUniqueTerm(result.terms, sourceTerm);
const match = getOwnProperty(result.match, derivedTerm);
if (match) {
match.push(field);
} else {
result.match[derivedTerm] = [field];
}
} else {
results.set(docId, {
score: weightedScore,
terms: [sourceTerm],
match: { [derivedTerm]: [field] }
});
}
}
}
return results;
}
/**
* @ignore
*/
addTerm(fieldId, documentId, term) {
const indexData = this._index.fetch(term, createMap);
let fieldIndex = indexData.get(fieldId);
if (fieldIndex == null) {
fieldIndex = /* @__PURE__ */ new Map();
fieldIndex.set(documentId, 1);
indexData.set(fieldId, fieldIndex);
} else {
const docs = fieldIndex.get(documentId);
fieldIndex.set(documentId, (docs || 0) + 1);
}
}
/**
* @ignore
*/
removeTerm(fieldId, documentId, term) {
if (!this._index.has(term)) {
this.warnDocumentChanged(documentId, fieldId, term);
return;
}
const indexData = this._index.fetch(term, createMap);
const fieldIndex = indexData.get(fieldId);
if (fieldIndex == null || fieldIndex.get(documentId) == null) {
this.warnDocumentChanged(documentId, fieldId, term);
} else if (fieldIndex.get(documentId) <= 1) {
if (fieldIndex.size <= 1) {
indexData.delete(fieldId);
} else {
fieldIndex.delete(documentId);
}
} else {
fieldIndex.set(documentId, fieldIndex.get(documentId) - 1);
}
if (this._index.get(term).size === 0) {
this._index.delete(term);
}
}
/**
* @ignore
*/
warnDocumentChanged(shortDocumentId, fieldId, term) {
for (const fieldName of Object.keys(this._fieldIds)) {
if (this._fieldIds[fieldName] === fieldId) {
this._options.logger("warn", `MiniSearch: document with ID ${this._documentIds.get(shortDocumentId)} has changed before removal: term "${term}" was not present in field "${fieldName}". Removing a document after it has changed can corrupt the index!`, "version_conflict");
return;
}
}
}
/**
* @ignore
*/
addDocumentId(documentId) {
const shortDocumentId = this._nextId;
this._idToShortId.set(documentId, shortDocumentId);
this._documentIds.set(shortDocumentId, documentId);
this._documentCount += 1;
this._nextId += 1;
return shortDocumentId;
}
/**
* @ignore
*/
addFields(fields) {
for (let i = 0; i < fields.length; i++) {
this._fieldIds[fields[i]] = i;
}
}
/**
* @ignore
*/
addFieldLength(documentId, fieldId, count, length) {
let fieldLengths = this._fieldLength.get(documentId);
if (fieldLengths == null)
this._fieldLength.set(documentId, fieldLengths = []);
fieldLengths[fieldId] = length;
const averageFieldLength = this._avgFieldLength[fieldId] || 0;
const totalFieldLength = averageFieldLength * count + length;
this._avgFieldLength[fieldId] = totalFieldLength / (count + 1);
}
/**
* @ignore
*/
removeFieldLength(documentId, fieldId, count, length) {
if (count === 1) {
this._avgFieldLength[fieldId] = 0;
return;
}
const totalFieldLength = this._avgFieldLength[fieldId] * count - length;
this._avgFieldLength[fieldId] = totalFieldLength / (count - 1);
}
/**
* @ignore
*/
saveStoredFields(documentId, doc) {
const { storeFields, extractField } = this._options;
if (storeFields == null || storeFields.length === 0) {
return;
}
let documentFields = this._storedFields.get(documentId);
if (documentFields == null)
this._storedFields.set(documentId, documentFields = {});
for (const fieldName of storeFields) {
const fieldValue = extractField(doc, fieldName);
if (fieldValue !== void 0)
documentFields[fieldName] = fieldValue;
}
}
};
MiniSearch.wildcard = Symbol("*");
var getOwnProperty = (object, property) => Object.prototype.hasOwnProperty.call(object, property) ? object[property] : void 0;
var combinators = {
[OR]: (a, b) => {
for (const docId of b.keys()) {
const existing = a.get(docId);
if (existing == null) {
a.set(docId, b.get(docId));
} else {
const { score, terms, match } = b.get(docId);
existing.score = existing.score + score;
existing.match = Object.assign(existing.match, match);
assignUniqueTerms(existing.terms, terms);
}
}
return a;
},
[AND]: (a, b) => {
const combined = /* @__PURE__ */ new Map();
for (const docId of b.keys()) {
const existing = a.get(docId);
if (existing == null)
continue;
const { score, terms, match } = b.get(docId);
assignUniqueTerms(existing.terms, terms);
combined.set(docId, {
score: existing.score + score,
terms: existing.terms,
match: Object.assign(existing.match, match)
});
}
return combined;
},
[AND_NOT]: (a, b) => {
for (const docId of b.keys())
a.delete(docId);
return a;
}
};
var defaultBM25params = { k: 1.2, b: 0.7, d: 0.5 };
var calcBM25Score = (termFreq, matchingCount, totalCount, fieldLength, avgFieldLength, bm25params) => {
const { k, b, d } = bm25params;
const invDocFreq = Math.log(1 + (totalCount - matchingCount + 0.5) / (matchingCount + 0.5));
return invDocFreq * (d + termFreq * (k + 1) / (termFreq + k * (1 - b + b * fieldLength / avgFieldLength)));
};
var termToQuerySpec = (options) => (term, i, terms) => {
const fuzzy = typeof options.fuzzy === "function" ? options.fuzzy(term, i, terms) : options.fuzzy || false;
const prefix = typeof options.prefix === "function" ? options.prefix(term, i, terms) : options.prefix === true;
const termBoost = typeof options.boostTerm === "function" ? options.boostTerm(term, i, terms) : 1;
return { term, fuzzy, prefix, termBoost };
};
var defaultOptions = {
idField: "id",
extractField: (document, fieldName) => document[fieldName],
tokenize: (text) => text.split(SPACE_OR_PUNCTUATION),
processTerm: (term) => term.toLowerCase(),
fields: void 0,
searchOptions: void 0,
storeFields: [],
logger: (level, message) => {
if (typeof (console === null || console === void 0 ? void 0 : console[level]) === "function")
console[level](message);
},
autoVacuum: true
};
var defaultSearchOptions = {
combineWith: OR,
prefix: false,
fuzzy: false,
maxFuzzy: 6,
boost: {},
weights: { fuzzy: 0.45, prefix: 0.375 },
bm25: defaultBM25params
};
var defaultAutoSuggestOptions = {
combineWith: AND,
prefix: (term, i, terms) => i === terms.length - 1
};
var defaultVacuumOptions = { batchSize: 1e3, batchWait: 10 };
var defaultVacuumConditions = { minDirtFactor: 0.1, minDirtCount: 20 };
var defaultAutoVacuumOptions = { ...defaultVacuumOptions, ...defaultVacuumConditions };
var assignUniqueTerm = (target, term) => {
if (!target.includes(term))
target.push(term);
};
var assignUniqueTerms = (target, source) => {
for (const term of source) {
if (!target.includes(term))
target.push(term);
}
};
var byScore = ({ score: a }, { score: b }) => b - a;
var createMap = () => /* @__PURE__ */ new Map();
var objectToNumericMap = (object) => {
const map = /* @__PURE__ */ new Map();
for (const key of Object.keys(object)) {
map.set(parseInt(key, 10), object[key]);
}
return map;
};
var objectToNumericMapAsync = async (object) => {
const map = /* @__PURE__ */ new Map();
let count = 0;
for (const key of Object.keys(object)) {
map.set(parseInt(key, 10), object[key]);
if (++count % 1e3 === 0) {
await wait(0);
}
}
return map;
};
var wait = (ms) => new Promise((resolve) => setTimeout(resolve, ms));
var SPACE_OR_PUNCTUATION = /[\n\r\p{Z}\p{P}]+/u;
export {
MiniSearch as default
};
//# sourceMappingURL=vitepress___minisearch.js.map
```