/* 2022-07-22 The author disclaims copyright to this source code. In place of a legal notice, here is a blessing: * May you do good and not evil. * May you find forgiveness for yourself and forgive others. * May you share freely, never taking more than you give. *********************************************************************** This file glues together disparate pieces of JS which are loaded in previous steps of the sqlite3-api.js bootstrapping process: sqlite3-api-prologue.js, whwasmutil.js, and jaccwabyt.js. It initializes the main API pieces so that the downstream components (e.g. sqlite3-api-oo1.js) have all of the infrastructure that they need. */ globalThis.sqlite3ApiBootstrap.initializers.push(function(sqlite3){ 'use strict'; const toss = (...args)=>{throw new Error(args.join(' '))}; const toss3 = sqlite3.SQLite3Error.toss; const capi = sqlite3.capi, wasm = sqlite3.wasm, util = sqlite3.util; globalThis.WhWasmUtilInstaller(wasm); delete globalThis.WhWasmUtilInstaller; if(0){ /** Please keep this block around as a maintenance reminder that we cannot rely on this type of check. This block fails on Safari, per a report at https://sqlite.org/forum/forumpost/e5b20e1feb. It turns out that what Safari serves from the indirect function table (e.g. wasm.functionEntry(X)) is anonymous functions which wrap the WASM functions, rather than returning the WASM functions themselves. That means comparison of such functions is useless for determining whether or not we have a specific function from wasm.exports. i.e. if function X is indirection function table entry N then wasm.exports.X is not equal to wasm.functionEntry(N) in Safari, despite being so in the other browsers. */ /** Find a mapping for SQLITE_WASM_DEALLOC, which the API guarantees is a WASM pointer to the same underlying function as wasm.dealloc() (noting that wasm.dealloc() is permitted to be a JS wrapper around the WASM function). There is unfortunately no O(1) algorithm for finding this pointer: we have to walk the WASM indirect function table to find it. However, experience indicates that that particular function is always very close to the front of the table (it's been entry #3 in all relevant tests). */ const dealloc = wasm.exports[sqlite3.config.deallocExportName]; const nFunc = wasm.functionTable().length; let i; for(i = 0; i < nFunc; ++i){ const e = wasm.functionEntry(i); if(dealloc === e){ capi.SQLITE_WASM_DEALLOC = i; break; } } if(dealloc !== wasm.functionEntry(capi.SQLITE_WASM_DEALLOC)){ toss("Internal error: cannot find function pointer for SQLITE_WASM_DEALLOC."); } } /** Signatures for the WASM-exported C-side functions. Each entry is an array with 2+ elements: [ "c-side name", "result type" (wasm.xWrap() syntax), [arg types in xWrap() syntax] // ^^^ this needn't strictly be an array: it can be subsequent // elements instead: [x,y,z] is equivalent to x,y,z ] Note that support for the API-specific data types in the result/argument type strings gets plugged in at a later phase in the API initialization process. */ wasm.bindingSignatures = [ // Please keep these sorted by function name! ["sqlite3_aggregate_context","void*", "sqlite3_context*", "int"], /* sqlite3_auto_extension() has a hand-written binding. */ /* sqlite3_bind_blob() and sqlite3_bind_text() have hand-written bindings to permit more flexible inputs. */ ["sqlite3_bind_double","int", "sqlite3_stmt*", "int", "f64"], ["sqlite3_bind_int","int", "sqlite3_stmt*", "int", "int"], ["sqlite3_bind_null",undefined, "sqlite3_stmt*", "int"], ["sqlite3_bind_parameter_count", "int", "sqlite3_stmt*"], ["sqlite3_bind_parameter_index","int", "sqlite3_stmt*", "string"], ["sqlite3_bind_pointer", "int", "sqlite3_stmt*", "int", "*", "string:static", "*"], ["sqlite3_busy_handler","int", [ "sqlite3*", new wasm.xWrap.FuncPtrAdapter({ signature: 'i(pi)', contextKey: (argv,argIndex)=>argv[0/* sqlite3* */] }), "*" ]], ["sqlite3_busy_timeout","int", "sqlite3*", "int"], /* sqlite3_cancel_auto_extension() has a hand-written binding. */ /* sqlite3_close_v2() is implemented by hand to perform some extra work. */ ["sqlite3_changes", "int", "sqlite3*"], ["sqlite3_clear_bindings","int", "sqlite3_stmt*"], ["sqlite3_collation_needed", "int", "sqlite3*", "*", "*"/*=>v(ppis)*/], ["sqlite3_column_blob","*", "sqlite3_stmt*", "int"], ["sqlite3_column_bytes","int", "sqlite3_stmt*", "int"], ["sqlite3_column_count", "int", "sqlite3_stmt*"], ["sqlite3_column_double","f64", "sqlite3_stmt*", "int"], ["sqlite3_column_int","int", "sqlite3_stmt*", "int"], ["sqlite3_column_name","string", "sqlite3_stmt*", "int"], ["sqlite3_column_text","string", "sqlite3_stmt*", "int"], ["sqlite3_column_type","int", "sqlite3_stmt*", "int"], ["sqlite3_column_value","sqlite3_value*", "sqlite3_stmt*", "int"], ["sqlite3_commit_hook", "void*", [ "sqlite3*", new wasm.xWrap.FuncPtrAdapter({ name: 'sqlite3_commit_hook', signature: 'i(p)', contextKey: (argv)=>argv[0/* sqlite3* */] }), '*' ]], ["sqlite3_compileoption_get", "string", "int"], ["sqlite3_compileoption_used", "int", "string"], ["sqlite3_complete", "int", "string:flexible"], ["sqlite3_context_db_handle", "sqlite3*", "sqlite3_context*"], /* sqlite3_create_function(), sqlite3_create_function_v2(), and sqlite3_create_window_function() use hand-written bindings to simplify handling of their function-type arguments. */ /* sqlite3_create_collation() and sqlite3_create_collation_v2() use hand-written bindings to simplify passing of the callback function. ["sqlite3_create_collation", "int", "sqlite3*", "string", "int",//SQLITE_UTF8 is the only legal value "*", "*"], ["sqlite3_create_collation_v2", "int", "sqlite3*", "string", "int",//SQLITE_UTF8 is the only legal value "*", "*", "*"], */ ["sqlite3_data_count", "int", "sqlite3_stmt*"], ["sqlite3_db_filename", "string", "sqlite3*", "string"], ["sqlite3_db_handle", "sqlite3*", "sqlite3_stmt*"], ["sqlite3_db_name", "string", "sqlite3*", "int"], ["sqlite3_db_status", "int", "sqlite3*", "int", "*", "*", "int"], ["sqlite3_errcode", "int", "sqlite3*"], ["sqlite3_errmsg", "string", "sqlite3*"], ["sqlite3_error_offset", "int", "sqlite3*"], ["sqlite3_errstr", "string", "int"], ["sqlite3_exec", "int", [ "sqlite3*", "string:flexible", new wasm.xWrap.FuncPtrAdapter({ signature: 'i(pipp)', bindScope: 'transient', callProxy: (callback)=>{ let aNames; return (pVoid, nCols, pColVals, pColNames)=>{ try { const aVals = wasm.cArgvToJs(nCols, pColVals); if(!aNames) aNames = wasm.cArgvToJs(nCols, pColNames); return callback(aVals, aNames) | 0; }catch(e){ /* If we set the db error state here, the higher-level exec() call replaces it with its own, so we have no way of reporting the exception message except the console. We must not propagate exceptions through the C API. Though we make an effort to report OOM here, sqlite3_exec() translates that into SQLITE_ABORT as well. */ return e.resultCode || capi.SQLITE_ERROR; } } } }), "*", "**" ]], ["sqlite3_expanded_sql", "string", "sqlite3_stmt*"], ["sqlite3_extended_errcode", "int", "sqlite3*"], ["sqlite3_extended_result_codes", "int", "sqlite3*", "int"], ["sqlite3_file_control", "int", "sqlite3*", "string", "int", "*"], ["sqlite3_finalize", "int", "sqlite3_stmt*"], ["sqlite3_free", undefined,"*"], ["sqlite3_get_autocommit", "int", "sqlite3*"], ["sqlite3_get_auxdata", "*", "sqlite3_context*", "int"], ["sqlite3_initialize", undefined], /*["sqlite3_interrupt", undefined, "sqlite3*" ^^^ we cannot actually currently support this because JS is single-threaded and we don't have a portable way to access a DB from 2 SharedWorkers concurrently. ],*/ ["sqlite3_keyword_count", "int"], ["sqlite3_keyword_name", "int", ["int", "**", "*"]], ["sqlite3_keyword_check", "int", ["string", "int"]], ["sqlite3_libversion", "string"], ["sqlite3_libversion_number", "int"], ["sqlite3_limit", "int", ["sqlite3*", "int", "int"]], ["sqlite3_malloc", "*","int"], ["sqlite3_open", "int", "string", "*"], ["sqlite3_open_v2", "int", "string", "*", "int", "string"], /* sqlite3_prepare_v2() and sqlite3_prepare_v3() are handled separately due to us requiring two different sets of semantics for those, depending on how their SQL argument is provided. */ /* sqlite3_randomness() uses a hand-written wrapper to extend the range of supported argument types. */ ["sqlite3_progress_handler", undefined, [ "sqlite3*", "int", new wasm.xWrap.FuncPtrAdapter({ name: 'xProgressHandler', signature: 'i(p)', bindScope: 'context', contextKey: (argv,argIndex)=>argv[0/* sqlite3* */] }), "*" ]], ["sqlite3_realloc", "*","*","int"], ["sqlite3_reset", "int", "sqlite3_stmt*"], /* sqlite3_reset_auto_extension() has a hand-written binding. */ ["sqlite3_result_blob", undefined, "sqlite3_context*", "*", "int", "*"], ["sqlite3_result_double", undefined, "sqlite3_context*", "f64"], ["sqlite3_result_error", undefined, "sqlite3_context*", "string", "int"], ["sqlite3_result_error_code", undefined, "sqlite3_context*", "int"], ["sqlite3_result_error_nomem", undefined, "sqlite3_context*"], ["sqlite3_result_error_toobig", undefined, "sqlite3_context*"], ["sqlite3_result_int", undefined, "sqlite3_context*", "int"], ["sqlite3_result_null", undefined, "sqlite3_context*"], ["sqlite3_result_pointer", undefined, "sqlite3_context*", "*", "string:static", "*"], ["sqlite3_result_subtype", undefined, "sqlite3_value*", "int"], ["sqlite3_result_text", undefined, "sqlite3_context*", "string", "int", "*"], ["sqlite3_result_zeroblob", undefined, "sqlite3_context*", "int"], ["sqlite3_rollback_hook", "void*", [ "sqlite3*", new wasm.xWrap.FuncPtrAdapter({ name: 'sqlite3_rollback_hook', signature: 'v(p)', contextKey: (argv)=>argv[0/* sqlite3* */] }), '*' ]], ["sqlite3_set_authorizer", "int", [ "sqlite3*", new wasm.xWrap.FuncPtrAdapter({ name: "sqlite3_set_authorizer::xAuth", signature: "i(pi"+"ssss)", contextKey: (argv, argIndex)=>argv[0/*(sqlite3*)*/], callProxy: (callback)=>{ return (pV, iCode, s0, s1, s2, s3)=>{ try{ s0 = s0 && wasm.cstrToJs(s0); s1 = s1 && wasm.cstrToJs(s1); s2 = s2 && wasm.cstrToJs(s2); s3 = s3 && wasm.cstrToJs(s3); return callback(pV, iCode, s0, s1, s2, s3) || 0; }catch(e){ return e.resultCode || capi.SQLITE_ERROR; } } } }), "*"/*pUserData*/ ]], ["sqlite3_set_auxdata", undefined, [ "sqlite3_context*", "int", "*", new wasm.xWrap.FuncPtrAdapter({ name: 'xDestroyAuxData', signature: 'v(*)', contextKey: (argv, argIndex)=>argv[0/* sqlite3_context* */] }) ]], ["sqlite3_shutdown", undefined], ["sqlite3_sourceid", "string"], ["sqlite3_sql", "string", "sqlite3_stmt*"], ["sqlite3_status", "int", "int", "*", "*", "int"], ["sqlite3_step", "int", "sqlite3_stmt*"], ["sqlite3_stmt_isexplain", "int", ["sqlite3_stmt*"]], ["sqlite3_stmt_readonly", "int", ["sqlite3_stmt*"]], ["sqlite3_stmt_status", "int", "sqlite3_stmt*", "int", "int"], ["sqlite3_strglob", "int", "string","string"], ["sqlite3_stricmp", "int", "string", "string"], ["sqlite3_strlike", "int", "string", "string","int"], ["sqlite3_strnicmp", "int", "string", "string", "int"], ["sqlite3_table_column_metadata", "int", "sqlite3*", "string", "string", "string", "**", "**", "*", "*", "*"], ["sqlite3_total_changes", "int", "sqlite3*"], ["sqlite3_trace_v2", "int", [ "sqlite3*", "int", new wasm.xWrap.FuncPtrAdapter({ name: 'sqlite3_trace_v2::callback', signature: 'i(ippp)', contextKey: (argv,argIndex)=>argv[0/* sqlite3* */] }), "*" ]], ["sqlite3_txn_state", "int", ["sqlite3*","string"]], /* Note that sqlite3_uri_...() have very specific requirements for their first C-string arguments, so we cannot perform any value conversion on those. */ ["sqlite3_uri_boolean", "int", "sqlite3_filename", "string", "int"], ["sqlite3_uri_key", "string", "sqlite3_filename", "int"], ["sqlite3_uri_parameter", "string", "sqlite3_filename", "string"], ["sqlite3_user_data","void*", "sqlite3_context*"], ["sqlite3_value_blob", "*", "sqlite3_value*"], ["sqlite3_value_bytes","int", "sqlite3_value*"], ["sqlite3_value_double","f64", "sqlite3_value*"], ["sqlite3_value_dup", "sqlite3_value*", "sqlite3_value*"], ["sqlite3_value_free", undefined, "sqlite3_value*"], ["sqlite3_value_frombind", "int", "sqlite3_value*"], ["sqlite3_value_int","int", "sqlite3_value*"], ["sqlite3_value_nochange", "int", "sqlite3_value*"], ["sqlite3_value_numeric_type", "int", "sqlite3_value*"], ["sqlite3_value_pointer", "*", "sqlite3_value*", "string:static"], ["sqlite3_value_subtype", "int", "sqlite3_value*"], ["sqlite3_value_text", "string", "sqlite3_value*"], ["sqlite3_value_type", "int", "sqlite3_value*"], ["sqlite3_vfs_find", "*", "string"], ["sqlite3_vfs_register", "int", "sqlite3_vfs*", "int"], ["sqlite3_vfs_unregister", "int", "sqlite3_vfs*"] ]/*wasm.bindingSignatures*/; if(false && wasm.compileOptionUsed('SQLITE_ENABLE_NORMALIZE')){ /* ^^^ "the problem" is that this is an option feature and the build-time function-export list does not currently take optional features into account. */ wasm.bindingSignatures.push(["sqlite3_normalized_sql", "string", "sqlite3_stmt*"]); } //#if enable-see if(wasm.exports.sqlite3_key_v2 instanceof Function){ /** This code is capable of using an SEE build but note that an SEE WASM build is generally incompatible with SEE's license conditions. It is permitted for use internally in organizations which have licensed SEE, but not for public sites because exposing an SEE build of sqlite3.wasm effectively provides all clients with a working copy of the commercial SEE code. */ wasm.bindingSignatures.push( ["sqlite3_key", "int", "sqlite3*", "string", "int"], ["sqlite3_key_v2","int","sqlite3*","string","*","int"], ["sqlite3_rekey", "int", "sqlite3*", "string", "int"], ["sqlite3_rekey_v2", "int", "sqlite3*", "string", "*", "int"], ["sqlite3_activate_see", undefined, "string"] ); } //#endif enable-see /** Functions which require BigInt (int64) support are separated from the others because we need to conditionally bind them or apply dummy impls, depending on the capabilities of the environment. (That said: we never actually build without BigInt support, and such builds are untested.) Note that not all of these functions directly require int64 but are only for use with APIs which require int64. For example, the vtab-related functions. */ wasm.bindingSignatures.int64 = [ ["sqlite3_bind_int64","int", ["sqlite3_stmt*", "int", "i64"]], ["sqlite3_changes64","i64", ["sqlite3*"]], ["sqlite3_column_int64","i64", ["sqlite3_stmt*", "int"]], ["sqlite3_create_module", "int", ["sqlite3*","string","sqlite3_module*","*"]], ["sqlite3_create_module_v2", "int", ["sqlite3*","string","sqlite3_module*","*","*"]], ["sqlite3_declare_vtab", "int", ["sqlite3*", "string:flexible"]], ["sqlite3_deserialize", "int", "sqlite3*", "string", "*", "i64", "i64", "int"] /* Careful! Short version: de/serialize() are problematic because they might use a different allocator than the user for managing the deserialized block. de/serialize() are ONLY safe to use with sqlite3_malloc(), sqlite3_free(), and its 64-bit variants. Because of this, the canonical builds of sqlite3.wasm/js guarantee that sqlite3.wasm.alloc() and friends use those allocators. Custom builds may not guarantee that, however. */, ["sqlite3_drop_modules", "int", ["sqlite3*", "**"]], ["sqlite3_last_insert_rowid", "i64", ["sqlite3*"]], ["sqlite3_malloc64", "*","i64"], ["sqlite3_msize", "i64", "*"], ["sqlite3_overload_function", "int", ["sqlite3*","string","int"]], ["sqlite3_preupdate_blobwrite", "int", "sqlite3*"], ["sqlite3_preupdate_count", "int", "sqlite3*"], ["sqlite3_preupdate_depth", "int", "sqlite3*"], ["sqlite3_preupdate_hook", "*", [ "sqlite3*", new wasm.xWrap.FuncPtrAdapter({ name: 'sqlite3_preupdate_hook', signature: "v(ppippjj)", contextKey: (argv)=>argv[0/* sqlite3* */], callProxy: (callback)=>{ return (p,db,op,zDb,zTbl,iKey1,iKey2)=>{ callback(p, db, op, wasm.cstrToJs(zDb), wasm.cstrToJs(zTbl), iKey1, iKey2); }; } }), "*" ]], ["sqlite3_preupdate_new", "int", ["sqlite3*", "int", "**"]], ["sqlite3_preupdate_old", "int", ["sqlite3*", "int", "**"]], ["sqlite3_realloc64", "*","*", "i64"], ["sqlite3_result_int64", undefined, "*", "i64"], ["sqlite3_result_zeroblob64", "int", "*", "i64"], ["sqlite3_serialize","*", "sqlite3*", "string", "*", "int"], ["sqlite3_set_last_insert_rowid", undefined, ["sqlite3*", "i64"]], ["sqlite3_status64", "int", "int", "*", "*", "int"], ["sqlite3_total_changes64", "i64", ["sqlite3*"]], ["sqlite3_update_hook", "*", [ "sqlite3*", new wasm.xWrap.FuncPtrAdapter({ name: 'sqlite3_update_hook', signature: "v(iippj)", contextKey: (argv)=>argv[0/* sqlite3* */], callProxy: (callback)=>{ return (p,op,z0,z1,rowid)=>{ callback(p, op, wasm.cstrToJs(z0), wasm.cstrToJs(z1), rowid); }; } }), "*" ]], ["sqlite3_uri_int64", "i64", ["sqlite3_filename", "string", "i64"]], ["sqlite3_value_int64","i64", "sqlite3_value*"], ["sqlite3_vtab_collation","string","sqlite3_index_info*","int"], ["sqlite3_vtab_distinct","int", "sqlite3_index_info*"], ["sqlite3_vtab_in","int", "sqlite3_index_info*", "int", "int"], ["sqlite3_vtab_in_first", "int", "sqlite3_value*", "**"], ["sqlite3_vtab_in_next", "int", "sqlite3_value*", "**"], /*["sqlite3_vtab_config" is variadic and requires a hand-written proxy.] */ ["sqlite3_vtab_nochange","int", "sqlite3_context*"], ["sqlite3_vtab_on_conflict","int", "sqlite3*"], ["sqlite3_vtab_rhs_value","int", "sqlite3_index_info*", "int", "**"] ]; // Add session/changeset APIs... if(wasm.bigIntEnabled && !!wasm.exports.sqlite3changegroup_add){ /** FuncPtrAdapter options for session-related callbacks with the native signature "i(ps)". This proxy converts the 2nd argument from a C string to a JS string before passing the arguments on to the client-provided JS callback. */ const __ipsProxy = { signature: 'i(ps)', callProxy:(callback)=>{ return (p,s)=>{ try{return callback(p, wasm.cstrToJs(s)) | 0} catch(e){return e.resultCode || capi.SQLITE_ERROR} } } }; wasm.bindingSignatures.int64.push(...[ ['sqlite3changegroup_add', 'int', ['sqlite3_changegroup*', 'int', 'void*']], ['sqlite3changegroup_add_strm', 'int', [ 'sqlite3_changegroup*', new wasm.xWrap.FuncPtrAdapter({ name: 'xInput', signature: 'i(ppp)', bindScope: 'transient' }), 'void*' ]], ['sqlite3changegroup_delete', undefined, ['sqlite3_changegroup*']], ['sqlite3changegroup_new', 'int', ['**']], ['sqlite3changegroup_output', 'int', ['sqlite3_changegroup*', 'int*', '**']], ['sqlite3changegroup_output_strm', 'int', [ 'sqlite3_changegroup*', new wasm.xWrap.FuncPtrAdapter({ name: 'xOutput', signature: 'i(ppi)', bindScope: 'transient' }), 'void*' ]], ['sqlite3changeset_apply', 'int', [ 'sqlite3*', 'int', 'void*', new wasm.xWrap.FuncPtrAdapter({ name: 'xFilter', bindScope: 'transient', ...__ipsProxy }), new wasm.xWrap.FuncPtrAdapter({ name: 'xConflict', signature: 'i(pip)', bindScope: 'transient' }), 'void*' ]], ['sqlite3changeset_apply_strm', 'int', [ 'sqlite3*', new wasm.xWrap.FuncPtrAdapter({ name: 'xInput', signature: 'i(ppp)', bindScope: 'transient' }), 'void*', new wasm.xWrap.FuncPtrAdapter({ name: 'xFilter', bindScope: 'transient', ...__ipsProxy }), new wasm.xWrap.FuncPtrAdapter({ name: 'xConflict', signature: 'i(pip)', bindScope: 'transient' }), 'void*' ]], ['sqlite3changeset_apply_v2', 'int', [ 'sqlite3*', 'int', 'void*', new wasm.xWrap.FuncPtrAdapter({ name: 'xFilter', bindScope: 'transient', ...__ipsProxy }), new wasm.xWrap.FuncPtrAdapter({ name: 'xConflict', signature: 'i(pip)', bindScope: 'transient' }), 'void*', '**', 'int*', 'int' ]], ['sqlite3changeset_apply_v2_strm', 'int', [ 'sqlite3*', new wasm.xWrap.FuncPtrAdapter({ name: 'xInput', signature: 'i(ppp)', bindScope: 'transient' }), 'void*', new wasm.xWrap.FuncPtrAdapter({ name: 'xFilter', bindScope: 'transient', ...__ipsProxy }), new wasm.xWrap.FuncPtrAdapter({ name: 'xConflict', signature: 'i(pip)', bindScope: 'transient' }), 'void*', '**', 'int*', 'int' ]], ['sqlite3changeset_concat', 'int', ['int','void*', 'int', 'void*', 'int*', '**']], ['sqlite3changeset_concat_strm', 'int', [ new wasm.xWrap.FuncPtrAdapter({ name: 'xInputA', signature: 'i(ppp)', bindScope: 'transient' }), 'void*', new wasm.xWrap.FuncPtrAdapter({ name: 'xInputB', signature: 'i(ppp)', bindScope: 'transient' }), 'void*', new wasm.xWrap.FuncPtrAdapter({ name: 'xOutput', signature: 'i(ppi)', bindScope: 'transient' }), 'void*' ]], ['sqlite3changeset_conflict', 'int', ['sqlite3_changeset_iter*', 'int', '**']], ['sqlite3changeset_finalize', 'int', ['sqlite3_changeset_iter*']], ['sqlite3changeset_fk_conflicts', 'int', ['sqlite3_changeset_iter*', 'int*']], ['sqlite3changeset_invert', 'int', ['int', 'void*', 'int*', '**']], ['sqlite3changeset_invert_strm', 'int', [ new wasm.xWrap.FuncPtrAdapter({ name: 'xInput', signature: 'i(ppp)', bindScope: 'transient' }), 'void*', new wasm.xWrap.FuncPtrAdapter({ name: 'xOutput', signature: 'i(ppi)', bindScope: 'transient' }), 'void*' ]], ['sqlite3changeset_new', 'int', ['sqlite3_changeset_iter*', 'int', '**']], ['sqlite3changeset_next', 'int', ['sqlite3_changeset_iter*']], ['sqlite3changeset_old', 'int', ['sqlite3_changeset_iter*', 'int', '**']], ['sqlite3changeset_op', 'int', [ 'sqlite3_changeset_iter*', '**', 'int*', 'int*','int*' ]], ['sqlite3changeset_pk', 'int', ['sqlite3_changeset_iter*', '**', 'int*']], ['sqlite3changeset_start', 'int', ['**', 'int', '*']], ['sqlite3changeset_start_strm', 'int', [ '**', new wasm.xWrap.FuncPtrAdapter({ name: 'xInput', signature: 'i(ppp)', bindScope: 'transient' }), 'void*' ]], ['sqlite3changeset_start_v2', 'int', ['**', 'int', '*', 'int']], ['sqlite3changeset_start_v2_strm', 'int', [ '**', new wasm.xWrap.FuncPtrAdapter({ name: 'xInput', signature: 'i(ppp)', bindScope: 'transient' }), 'void*', 'int' ]], ['sqlite3session_attach', 'int', ['sqlite3_session*', 'string']], ['sqlite3session_changeset', 'int', ['sqlite3_session*', 'int*', '**']], ['sqlite3session_changeset_size', 'i64', ['sqlite3_session*']], ['sqlite3session_changeset_strm', 'int', [ 'sqlite3_session*', new wasm.xWrap.FuncPtrAdapter({ name: 'xOutput', signature: 'i(ppp)', bindScope: 'transient' }), 'void*' ]], ['sqlite3session_config', 'int', ['int', 'void*']], ['sqlite3session_create', 'int', ['sqlite3*', 'string', '**']], //sqlite3session_delete() is bound manually ['sqlite3session_diff', 'int', ['sqlite3_session*', 'string', 'string', '**']], ['sqlite3session_enable', 'int', ['sqlite3_session*', 'int']], ['sqlite3session_indirect', 'int', ['sqlite3_session*', 'int']], ['sqlite3session_isempty', 'int', ['sqlite3_session*']], ['sqlite3session_memory_used', 'i64', ['sqlite3_session*']], ['sqlite3session_object_config', 'int', ['sqlite3_session*', 'int', 'void*']], ['sqlite3session_patchset', 'int', ['sqlite3_session*', '*', '**']], ['sqlite3session_patchset_strm', 'int', [ 'sqlite3_session*', new wasm.xWrap.FuncPtrAdapter({ name: 'xOutput', signature: 'i(ppp)', bindScope: 'transient' }), 'void*' ]], ['sqlite3session_table_filter', undefined, [ 'sqlite3_session*', new wasm.xWrap.FuncPtrAdapter({ name: 'xFilter', ...__ipsProxy, contextKey: (argv,argIndex)=>argv[0/* (sqlite3_session*) */] }), '*' ]] ]); }/*session/changeset APIs*/ /** Functions which are intended solely for API-internal use by the WASM components, not client code. These get installed into sqlite3.util. Some of them get exposed to clients via variants in sqlite3_js_...(). 2024-01-11: these were renamed, with two underscores in the prefix, to ensure that clients do not accidentally depend on them. They have always been documented as internal-use-only, so no clients "should" be depending on the old names. */ wasm.bindingSignatures.wasmInternal = [ ["sqlite3__wasm_db_reset", "int", "sqlite3*"], ["sqlite3__wasm_db_vfs", "sqlite3_vfs*", "sqlite3*","string"], [/* DO NOT USE. This is deprecated since 2023-08-11 because it can trigger assert() in debug builds when used with file sizes which are not sizes to a multiple of a valid db page size. */ "sqlite3__wasm_vfs_create_file", "int", "sqlite3_vfs*","string","*", "int" ], ["sqlite3__wasm_posix_create_file", "int", "string","*", "int"], ["sqlite3__wasm_vfs_unlink", "int", "sqlite3_vfs*","string"], ["sqlite3__wasm_qfmt_token","string:dealloc", "string","int"] ]; /** Install JS<->C struct bindings for the non-opaque struct types we need... */ sqlite3.StructBinder = globalThis.Jaccwabyt({ heap: 0 ? wasm.memory : wasm.heap8u, alloc: wasm.alloc, dealloc: wasm.dealloc, bigIntEnabled: wasm.bigIntEnabled, memberPrefix: /* Never change this: this prefix is baked into any amount of code and client-facing docs. */ '$' }); delete globalThis.Jaccwabyt; {// wasm.xWrap() bindings... /* Convert Arrays and certain TypedArrays to strings for 'string:flexible'-type arguments */ const __xString = wasm.xWrap.argAdapter('string'); wasm.xWrap.argAdapter( 'string:flexible', (v)=>__xString(util.flexibleString(v)) ); /** The 'string:static' argument adapter treats its argument as either... - WASM pointer: assumed to be a long-lived C-string which gets returned as-is. - Anything else: gets coerced to a JS string for use as a map key. If a matching entry is found (as described next), it is returned, else wasm.allocCString() is used to create a a new string, map its pointer to (''+v) for the remainder of the application's life, and returns that pointer value for this call and all future calls which are passed a string-equivalent argument. Use case: sqlite3_bind_pointer() and sqlite3_result_pointer() call for "a static string and preferably a string literal." This converter is used to ensure that the string value seen by those functions is long-lived and behaves as they need it to. */ wasm.xWrap.argAdapter( 'string:static', function(v){ if(wasm.isPtr(v)) return v; v = ''+v; let rc = this[v]; return rc || (this[v] = wasm.allocCString(v)); }.bind(Object.create(null)) ); /** Add some descriptive xWrap() aliases for '*' intended to (A) initially improve readability/correctness of wasm.bindingSignatures and (B) provide automatic conversion from higher-level representations, e.g. capi.sqlite3_vfs to `sqlite3_vfs*` via capi.sqlite3_vfs.pointer. */ const __xArgPtr = wasm.xWrap.argAdapter('*'); const nilType = function(){ /*a class which no value can ever be an instance of*/ }; wasm.xWrap.argAdapter('sqlite3_filename', __xArgPtr) ('sqlite3_context*', __xArgPtr) ('sqlite3_value*', __xArgPtr) ('void*', __xArgPtr) ('sqlite3_changegroup*', __xArgPtr) ('sqlite3_changeset_iter*', __xArgPtr) ('sqlite3_session*', __xArgPtr) ('sqlite3_stmt*', (v)=> __xArgPtr((v instanceof (sqlite3?.oo1?.Stmt || nilType)) ? v.pointer : v)) ('sqlite3*', (v)=> __xArgPtr((v instanceof (sqlite3?.oo1?.DB || nilType)) ? v.pointer : v)) ('sqlite3_index_info*', (v)=> __xArgPtr((v instanceof (capi.sqlite3_index_info || nilType)) ? v.pointer : v)) ('sqlite3_module*', (v)=> __xArgPtr((v instanceof (capi.sqlite3_module || nilType)) ? v.pointer : v)) /** `sqlite3_vfs*`: - v is-a string: use the result of sqlite3_vfs_find(v) but throw if it returns 0. - v is-a capi.sqlite3_vfs: use v.pointer. - Else return the same as the `'*'` argument conversion. */ ('sqlite3_vfs*', (v)=>{ if('string'===typeof v){ /* A NULL sqlite3_vfs pointer will be treated as the default VFS in many contexts. We specifically do not want that behavior here. */ return capi.sqlite3_vfs_find(v) || sqlite3.SQLite3Error.toss( capi.SQLITE_NOTFOUND, "Unknown sqlite3_vfs name:", v ); } return __xArgPtr((v instanceof (capi.sqlite3_vfs || nilType)) ? v.pointer : v); }); const __xRcPtr = wasm.xWrap.resultAdapter('*'); wasm.xWrap.resultAdapter('sqlite3*', __xRcPtr) ('sqlite3_context*', __xRcPtr) ('sqlite3_stmt*', __xRcPtr) ('sqlite3_value*', __xRcPtr) ('sqlite3_vfs*', __xRcPtr) ('void*', __xRcPtr); /** Populate api object with sqlite3_...() by binding the "raw" wasm exports into type-converting proxies using wasm.xWrap(). */ if(0 === wasm.exports.sqlite3_step.length){ /* This environment wraps exports in nullary functions, which means we must disable the arg-count validation we otherwise perform on the wrappers. */ wasm.xWrap.doArgcCheck = false; sqlite3.config.warn( "Disabling sqlite3.wasm.xWrap.doArgcCheck due to environmental quirks." ); } for(const e of wasm.bindingSignatures){ capi[e[0]] = wasm.xWrap.apply(null, e); } for(const e of wasm.bindingSignatures.wasmInternal){ util[e[0]] = wasm.xWrap.apply(null, e); } /* For C API functions which cannot work properly unless wasm.bigIntEnabled is true, install a bogus impl which throws if called when bigIntEnabled is false. The alternative would be to elide these functions altogether, which seems likely to cause more confusion. */ const fI64Disabled = function(fname){ return ()=>toss(fname+"() is unavailable due to lack", "of BigInt support in this build."); }; for(const e of wasm.bindingSignatures.int64){ capi[e[0]] = wasm.bigIntEnabled ? wasm.xWrap.apply(null, e) : fI64Disabled(e[0]); } /* There's no need to expose bindingSignatures to clients, implicitly making it part of the public interface. */ delete wasm.bindingSignatures; if(wasm.exports.sqlite3__wasm_db_error){ const __db_err = wasm.xWrap( 'sqlite3__wasm_db_error', 'int', 'sqlite3*', 'int', 'string' ); /** Sets the given db's error state. Accepts: - (sqlite3*, int code, string msg) - (sqlite3*, Error e [,string msg = ''+e]) If passed a WasmAllocError, the message is ignored and the result code is SQLITE_NOMEM. If passed any other Error type, the result code defaults to SQLITE_ERROR unless the Error object has a resultCode property, in which case that is used (e.g. SQLite3Error has that). If passed a non-WasmAllocError exception, the message string defaults to theError.message. Returns the resulting code. Pass (pDb,0,0) to clear the error state. */ util.sqlite3__wasm_db_error = function(pDb, resultCode, message){ if(resultCode instanceof sqlite3.WasmAllocError){ resultCode = capi.SQLITE_NOMEM; message = 0 /*avoid allocating message string*/; }else if(resultCode instanceof Error){ message = message || ''+resultCode; resultCode = (resultCode.resultCode || capi.SQLITE_ERROR); } return pDb ? __db_err(pDb, resultCode, message) : resultCode; }; }else{ util.sqlite3__wasm_db_error = function(pDb,errCode,msg){ console.warn("sqlite3__wasm_db_error() is not exported.",arguments); return errCode; }; } }/*xWrap() bindings*/ {/* Import C-level constants and structs... */ const cJson = wasm.xCall('sqlite3__wasm_enum_json'); if(!cJson){ toss("Maintenance required: increase sqlite3__wasm_enum_json()'s", "static buffer size!"); } //console.debug('wasm.ctype length =',wasm.cstrlen(cJson)); wasm.ctype = JSON.parse(wasm.cstrToJs(cJson)); // Groups of SQLITE_xyz macros... const defineGroups = ['access', 'authorizer', 'blobFinalizers', 'changeset', 'config', 'dataTypes', 'dbConfig', 'dbStatus', 'encodings', 'fcntl', 'flock', 'ioCap', 'limits', 'openFlags', 'prepareFlags', 'resultCodes', 'sqlite3Status', 'stmtStatus', 'syncFlags', 'trace', 'txnState', 'udfFlags', 'version' ]; if(wasm.bigIntEnabled){ defineGroups.push('serialize', 'session', 'vtab'); } for(const t of defineGroups){ for(const e of Object.entries(wasm.ctype[t])){ // ^^^ [k,v] there triggers a buggy code transformation via // one of the Emscripten-driven optimizers. capi[e[0]] = e[1]; } } if(!wasm.functionEntry(capi.SQLITE_WASM_DEALLOC)){ toss("Internal error: cannot resolve exported function", "entry SQLITE_WASM_DEALLOC (=="+capi.SQLITE_WASM_DEALLOC+")."); } const __rcMap = Object.create(null); for(const t of ['resultCodes']){ for(const e of Object.entries(wasm.ctype[t])){ __rcMap[e[1]] = e[0]; } } /** For the given integer, returns the SQLITE_xxx result code as a string, or undefined if no such mapping is found. */ capi.sqlite3_js_rc_str = (rc)=>__rcMap[rc]; /* Bind all registered C-side structs... */ const notThese = Object.assign(Object.create(null),{ // For each struct to NOT register, map its name to true: WasmTestStruct: true, /* We unregister the kvvfs VFS from Worker threads below. */ sqlite3_kvvfs_methods: !util.isUIThread(), /* sqlite3_index_info and friends require int64: */ sqlite3_index_info: !wasm.bigIntEnabled, sqlite3_index_constraint: !wasm.bigIntEnabled, sqlite3_index_orderby: !wasm.bigIntEnabled, sqlite3_index_constraint_usage: !wasm.bigIntEnabled }); for(const s of wasm.ctype.structs){ if(!notThese[s.name]){ capi[s.name] = sqlite3.StructBinder(s); } } if(capi.sqlite3_index_info){ /* Move these inner structs into sqlite3_index_info. Binding ** them to WASM requires that we create global-scope structs to ** model them with, but those are no longer needed after we've ** passed them to StructBinder. */ for(const k of ['sqlite3_index_constraint', 'sqlite3_index_orderby', 'sqlite3_index_constraint_usage']){ capi.sqlite3_index_info[k] = capi[k]; delete capi[k]; } capi.sqlite3_vtab_config = wasm.xWrap( 'sqlite3__wasm_vtab_config','int',[ 'sqlite3*', 'int', 'int'] ); }/* end vtab-related setup */ }/*end C constant and struct imports*/ /** Internal helper to assist in validating call argument counts in the hand-written sqlite3_xyz() wrappers. We do this only for consistency with non-special-case wrappings. */ const __dbArgcMismatch = (pDb,f,n)=>{ return util.sqlite3__wasm_db_error(pDb, capi.SQLITE_MISUSE, f+"() requires "+n+" argument"+ (1===n?"":'s')+"."); }; /** Code duplication reducer for functions which take an encoding argument and require SQLITE_UTF8. Sets the db error code to SQLITE_FORMAT and returns that code. */ const __errEncoding = (pDb)=>{ return util.sqlite3__wasm_db_error( pDb, capi.SQLITE_FORMAT, "SQLITE_UTF8 is the only supported encoding." ); }; /** __dbCleanupMap is infrastructure for recording registration of UDFs and collations so that sqlite3_close_v2() can clean up any automated JS-to-WASM function conversions installed by those. */ const __argPDb = (pDb)=>wasm.xWrap.argAdapter('sqlite3*')(pDb); const __argStr = (str)=>wasm.isPtr(str) ? wasm.cstrToJs(str) : str; const __dbCleanupMap = function( pDb, mode/*0=remove, >0=create if needed, <0=do not create if missing*/ ){ pDb = __argPDb(pDb); let m = this.dbMap.get(pDb); if(!mode){ this.dbMap.delete(pDb); return m; }else if(!m && mode>0){ this.dbMap.set(pDb, (m = Object.create(null))); } return m; }.bind(Object.assign(Object.create(null),{ dbMap: new Map })); __dbCleanupMap.addCollation = function(pDb, name){ const m = __dbCleanupMap(pDb, 1); if(!m.collation) m.collation = new Set; m.collation.add(__argStr(name).toLowerCase()); }; __dbCleanupMap._addUDF = function(pDb, name, arity, map){ /* Map UDF name to a Set of arity values */ name = __argStr(name).toLowerCase(); let u = map.get(name); if(!u) map.set(name, (u = new Set)); u.add((arity<0) ? -1 : arity); }; __dbCleanupMap.addFunction = function(pDb, name, arity){ const m = __dbCleanupMap(pDb, 1); if(!m.udf) m.udf = new Map; this._addUDF(pDb, name, arity, m.udf); }; __dbCleanupMap.addWindowFunc = function(pDb, name, arity){ const m = __dbCleanupMap(pDb, 1); if(!m.wudf) m.wudf = new Map; this._addUDF(pDb, name, arity, m.wudf); }; /** Intended to be called _only_ from sqlite3_close_v2(), passed its non-0 db argument. This function frees up certain automatically-installed WASM function bindings which were installed on behalf of the given db, as those may otherwise leak. Notable caveat: this is only ever run via sqlite3.capi.sqlite3_close_v2(). If a client, for whatever reason, uses sqlite3.wasm.exports.sqlite3_close_v2() (the function directly exported from WASM), this cleanup will not happen. This is not a silver bullet for avoiding automation-related leaks but represents "an honest effort." The issue being addressed here is covered at: https://sqlite.org/wasm/doc/trunk/api-c-style.md#convert-func-ptr */ __dbCleanupMap.cleanup = function(pDb){ pDb = __argPDb(pDb); //wasm.xWrap.FuncPtrAdapter.debugFuncInstall = false; /** Installing NULL functions in the C API will remove those bindings. The FuncPtrAdapter which sits between us and the C API will also treat that as an opportunity to wasm.uninstallFunction() any WASM function bindings it has installed for pDb. */ const closeArgs = [pDb]; for(const name of [ 'sqlite3_busy_handler', 'sqlite3_commit_hook', 'sqlite3_preupdate_hook', 'sqlite3_progress_handler', 'sqlite3_rollback_hook', 'sqlite3_set_authorizer', 'sqlite3_trace_v2', 'sqlite3_update_hook' ]) { const x = wasm.exports[name]; closeArgs.length = x.length/*==argument count*/ /* recall that undefined entries translate to 0 when passed to WASM. */; try{ capi[name](...closeArgs) } catch(e){ console.warn("close-time call of",name+"(",closeArgs,") threw:",e); } } const m = __dbCleanupMap(pDb, 0); if(!m) return; if(m.collation){ for(const name of m.collation){ try{ capi.sqlite3_create_collation_v2( pDb, name, capi.SQLITE_UTF8, 0, 0, 0 ); }catch(e){ /*ignored*/ } } delete m.collation; } let i; for(i = 0; i < 2; ++i){ /* Clean up UDFs... */ const fmap = i ? m.wudf : m.udf; if(!fmap) continue; const func = i ? capi.sqlite3_create_window_function : capi.sqlite3_create_function_v2; for(const e of fmap){ const name = e[0], arities = e[1]; const fargs = [pDb, name, 0/*arity*/, capi.SQLITE_UTF8, 0, 0, 0, 0, 0]; if(i) fargs.push(0); for(const arity of arities){ try{ fargs[2] = arity; func.apply(null, fargs); } catch(e){/*ignored*/} } arities.clear(); } fmap.clear(); } delete m.udf; delete m.wudf; }/*__dbCleanupMap.cleanup()*/; {/* Binding of sqlite3_close_v2() */ const __sqlite3CloseV2 = wasm.xWrap("sqlite3_close_v2", "int", "sqlite3*"); capi.sqlite3_close_v2 = function(pDb){ if(1!==arguments.length) return __dbArgcMismatch(pDb, 'sqlite3_close_v2', 1); if(pDb){ try{__dbCleanupMap.cleanup(pDb)} catch(e){/*ignored*/} } return __sqlite3CloseV2(pDb); }; }/*sqlite3_close_v2()*/ if(capi.sqlite3session_table_filter){ const __sqlite3SessionDelete = wasm.xWrap( 'sqlite3session_delete', undefined, ['sqlite3_session*'] ); capi.sqlite3session_delete = function(pSession){ if(1!==arguments.length){ return __dbArgcMismatch(pDb, 'sqlite3session_delete', 1); /* Yes, we're returning a value from a void function. That seems like the lesser evil compared to not maintaining arg-count consistency as we do with other similar bindings. */ } else if(pSession){ //wasm.xWrap.FuncPtrAdapter.debugFuncInstall = true; capi.sqlite3session_table_filter(pSession, 0, 0); } __sqlite3SessionDelete(pSession); }; } {/* Bindings for sqlite3_create_collation[_v2]() */ // contextKey() impl for wasm.xWrap.FuncPtrAdapter const contextKey = (argv,argIndex)=>{ return 'argv['+argIndex+']:'+argv[0/* sqlite3* */]+ ':'+wasm.cstrToJs(argv[1/* collation name */]).toLowerCase() }; const __sqlite3CreateCollationV2 = wasm.xWrap( 'sqlite3_create_collation_v2', 'int', [ 'sqlite3*', 'string', 'int', '*', new wasm.xWrap.FuncPtrAdapter({ /* int(*xCompare)(void*,int,const void*,int,const void*) */ name: 'xCompare', signature: 'i(pipip)', contextKey }), new wasm.xWrap.FuncPtrAdapter({ /* void(*xDestroy(void*) */ name: 'xDestroy', signature: 'v(p)', contextKey }) ] ); /** Works exactly like C's sqlite3_create_collation_v2() except that: 1) It returns capi.SQLITE_FORMAT if the 3rd argument contains any encoding-related value other than capi.SQLITE_UTF8. No other encodings are supported. As a special case, if the bottom 4 bits of that argument are 0, SQLITE_UTF8 is assumed. 2) It accepts JS functions for its function-pointer arguments, for which it will install WASM-bound proxies. The bindings are "permanent," in that they will stay in the WASM environment until it shuts down unless the client calls this again with the same collation name and a value of 0 or null for the the function pointer(s). For consistency with the C API, it requires the same number of arguments. It returns capi.SQLITE_MISUSE if passed any other argument count. Returns 0 on success, non-0 on error, in which case the error state of pDb (of type `sqlite3*` or argument-convertible to it) may contain more information. */ capi.sqlite3_create_collation_v2 = function(pDb,zName,eTextRep,pArg,xCompare,xDestroy){ if(6!==arguments.length) return __dbArgcMismatch(pDb, 'sqlite3_create_collation_v2', 6); else if( 0 === (eTextRep & 0xf) ){ eTextRep |= capi.SQLITE_UTF8; }else if( capi.SQLITE_UTF8 !== (eTextRep & 0xf) ){ return __errEncoding(pDb); } try{ const rc = __sqlite3CreateCollationV2(pDb, zName, eTextRep, pArg, xCompare, xDestroy); if(0===rc && xCompare instanceof Function){ __dbCleanupMap.addCollation(pDb, zName); } return rc; }catch(e){ return util.sqlite3__wasm_db_error(pDb, e); } }; capi.sqlite3_create_collation = (pDb,zName,eTextRep,pArg,xCompare)=>{ return (5===arguments.length) ? capi.sqlite3_create_collation_v2(pDb,zName,eTextRep,pArg,xCompare,0) : __dbArgcMismatch(pDb, 'sqlite3_create_collation', 5); }; }/*sqlite3_create_collation() and friends*/ {/* Special-case handling of sqlite3_create_function_v2() and sqlite3_create_window_function(). */ /** FuncPtrAdapter for contextKey() for sqlite3_create_function() and friends. */ const contextKey = function(argv,argIndex){ return ( argv[0/* sqlite3* */] +':'+(argv[2/*number of UDF args*/] < 0 ? -1 : argv[2]) +':'+argIndex/*distinct for each xAbc callback type*/ +':'+wasm.cstrToJs(argv[1]).toLowerCase() ) }; /** JS proxies for the various sqlite3_create[_window]_function() callbacks, structured in a form usable by wasm.xWrap.FuncPtrAdapter. */ const __cfProxy = Object.assign(Object.create(null), { xInverseAndStep: { signature:'v(pip)', contextKey, callProxy: (callback)=>{ return (pCtx, argc, pArgv)=>{ try{ callback(pCtx, ...capi.sqlite3_values_to_js(argc, pArgv)) } catch(e){ capi.sqlite3_result_error_js(pCtx, e) } }; } }, xFinalAndValue: { signature:'v(p)', contextKey, callProxy: (callback)=>{ return (pCtx)=>{ try{ capi.sqlite3_result_js(pCtx, callback(pCtx)) } catch(e){ capi.sqlite3_result_error_js(pCtx, e) } }; } }, xFunc: { signature:'v(pip)', contextKey, callProxy: (callback)=>{ return (pCtx, argc, pArgv)=>{ try{ capi.sqlite3_result_js( pCtx, callback(pCtx, ...capi.sqlite3_values_to_js(argc, pArgv)) ); }catch(e){ //console.error('xFunc() caught:',e); capi.sqlite3_result_error_js(pCtx, e); } }; } }, xDestroy: { signature:'v(p)', contextKey, //Arguable: a well-behaved destructor doesn't require a proxy. callProxy: (callback)=>{ return (pVoid)=>{ try{ callback(pVoid) } catch(e){ console.error("UDF xDestroy method threw:",e) } }; } } })/*__cfProxy*/; const __sqlite3CreateFunction = wasm.xWrap( "sqlite3_create_function_v2", "int", [ "sqlite3*", "string"/*funcName*/, "int"/*nArg*/, "int"/*eTextRep*/, "*"/*pApp*/, new wasm.xWrap.FuncPtrAdapter({name: 'xFunc', ...__cfProxy.xFunc}), new wasm.xWrap.FuncPtrAdapter({name: 'xStep', ...__cfProxy.xInverseAndStep}), new wasm.xWrap.FuncPtrAdapter({name: 'xFinal', ...__cfProxy.xFinalAndValue}), new wasm.xWrap.FuncPtrAdapter({name: 'xDestroy', ...__cfProxy.xDestroy}) ] ); const __sqlite3CreateWindowFunction = wasm.xWrap( "sqlite3_create_window_function", "int", [ "sqlite3*", "string"/*funcName*/, "int"/*nArg*/, "int"/*eTextRep*/, "*"/*pApp*/, new wasm.xWrap.FuncPtrAdapter({name: 'xStep', ...__cfProxy.xInverseAndStep}), new wasm.xWrap.FuncPtrAdapter({name: 'xFinal', ...__cfProxy.xFinalAndValue}), new wasm.xWrap.FuncPtrAdapter({name: 'xValue', ...__cfProxy.xFinalAndValue}), new wasm.xWrap.FuncPtrAdapter({name: 'xInverse', ...__cfProxy.xInverseAndStep}), new wasm.xWrap.FuncPtrAdapter({name: 'xDestroy', ...__cfProxy.xDestroy}) ] ); /* Documented in the api object's initializer. */ capi.sqlite3_create_function_v2 = function f( pDb, funcName, nArg, eTextRep, pApp, xFunc, //void (*xFunc)(sqlite3_context*,int,sqlite3_value**) xStep, //void (*xStep)(sqlite3_context*,int,sqlite3_value**) xFinal, //void (*xFinal)(sqlite3_context*) xDestroy //void (*xDestroy)(void*) ){ if( f.length!==arguments.length ){ return __dbArgcMismatch(pDb,"sqlite3_create_function_v2",f.length); }else if( 0 === (eTextRep & 0xf) ){ eTextRep |= capi.SQLITE_UTF8; }else if( capi.SQLITE_UTF8 !== (eTextRep & 0xf) ){ return __errEncoding(pDb); } try{ const rc = __sqlite3CreateFunction(pDb, funcName, nArg, eTextRep, pApp, xFunc, xStep, xFinal, xDestroy); if(0===rc && (xFunc instanceof Function || xStep instanceof Function || xFinal instanceof Function || xDestroy instanceof Function)){ __dbCleanupMap.addFunction(pDb, funcName, nArg); } return rc; }catch(e){ console.error("sqlite3_create_function_v2() setup threw:",e); return util.sqlite3__wasm_db_error(pDb, e, "Creation of UDF threw: "+e); } }; /* Documented in the api object's initializer. */ capi.sqlite3_create_function = function f( pDb, funcName, nArg, eTextRep, pApp, xFunc, xStep, xFinal ){ return (f.length===arguments.length) ? capi.sqlite3_create_function_v2(pDb, funcName, nArg, eTextRep, pApp, xFunc, xStep, xFinal, 0) : __dbArgcMismatch(pDb,"sqlite3_create_function",f.length); }; /* Documented in the api object's initializer. */ capi.sqlite3_create_window_function = function f( pDb, funcName, nArg, eTextRep, pApp, xStep, //void (*xStep)(sqlite3_context*,int,sqlite3_value**) xFinal, //void (*xFinal)(sqlite3_context*) xValue, //void (*xValue)(sqlite3_context*) xInverse,//void (*xInverse)(sqlite3_context*,int,sqlite3_value**) xDestroy //void (*xDestroy)(void*) ){ if( f.length!==arguments.length ){ return __dbArgcMismatch(pDb,"sqlite3_create_window_function",f.length); }else if( 0 === (eTextRep & 0xf) ){ eTextRep |= capi.SQLITE_UTF8; }else if( capi.SQLITE_UTF8 !== (eTextRep & 0xf) ){ return __errEncoding(pDb); } try{ const rc = __sqlite3CreateWindowFunction(pDb, funcName, nArg, eTextRep, pApp, xStep, xFinal, xValue, xInverse, xDestroy); if(0===rc && (xStep instanceof Function || xFinal instanceof Function || xValue instanceof Function || xInverse instanceof Function || xDestroy instanceof Function)){ __dbCleanupMap.addWindowFunc(pDb, funcName, nArg); } return rc; }catch(e){ console.error("sqlite3_create_window_function() setup threw:",e); return util.sqlite3__wasm_db_error(pDb, e, "Creation of UDF threw: "+e); } }; /** A _deprecated_ alias for capi.sqlite3_result_js() which predates the addition of that function in the public API. */ capi.sqlite3_create_function_v2.udfSetResult = capi.sqlite3_create_function.udfSetResult = capi.sqlite3_create_window_function.udfSetResult = capi.sqlite3_result_js; /** A _deprecated_ alias for capi.sqlite3_values_to_js() which predates the addition of that function in the public API. */ capi.sqlite3_create_function_v2.udfConvertArgs = capi.sqlite3_create_function.udfConvertArgs = capi.sqlite3_create_window_function.udfConvertArgs = capi.sqlite3_values_to_js; /** A _deprecated_ alias for capi.sqlite3_result_error_js() which predates the addition of that function in the public API. */ capi.sqlite3_create_function_v2.udfSetError = capi.sqlite3_create_function.udfSetError = capi.sqlite3_create_window_function.udfSetError = capi.sqlite3_result_error_js; }/*sqlite3_create_function_v2() and sqlite3_create_window_function() proxies*/; {/* Special-case handling of sqlite3_prepare_v2() and sqlite3_prepare_v3() */ /** Helper for string:flexible conversions which require a byte-length counterpart argument. Passed a value and its ostensible length, this function returns [V,N], where V is either v or a transformed copy of v and N is either n, -1, or the byte length of v (if it's a byte array or ArrayBuffer). */ const __flexiString = (v,n)=>{ if('string'===typeof v){ n = -1; }else if(util.isSQLableTypedArray(v)){ n = v.byteLength; v = util.typedArrayToString( (v instanceof ArrayBuffer) ? new Uint8Array(v) : v ); }else if(Array.isArray(v)){ v = v.join(""); n = -1; } return [v, n]; }; /** Scope-local holder of the two impls of sqlite3_prepare_v2/v3(). */ const __prepare = { /** This binding expects a JS string as its 2nd argument and null as its final argument. In order to compile multiple statements from a single string, the "full" impl (see below) must be used. */ basic: wasm.xWrap('sqlite3_prepare_v3', "int", ["sqlite3*", "string", "int"/*ignored for this impl!*/, "int", "**", "**"/*MUST be 0 or null or undefined!*/]), /** Impl which requires that the 2nd argument be a pointer to the SQL string, instead of being converted to a string. This variant is necessary for cases where we require a non-NULL value for the final argument (exec()'ing multiple statements from one input string). For simpler cases, where only the first statement in the SQL string is required, the wrapper named sqlite3_prepare_v2() is sufficient and easier to use because it doesn't require dealing with pointers. */ full: wasm.xWrap('sqlite3_prepare_v3', "int", ["sqlite3*", "*", "int", "int", "**", "**"]) }; /* Documented in the capi object's initializer. */ capi.sqlite3_prepare_v3 = function f(pDb, sql, sqlLen, prepFlags, ppStmt, pzTail){ if(f.length!==arguments.length){ return __dbArgcMismatch(pDb,"sqlite3_prepare_v3",f.length); } const [xSql, xSqlLen] = __flexiString(sql, sqlLen); switch(typeof xSql){ case 'string': return __prepare.basic(pDb, xSql, xSqlLen, prepFlags, ppStmt, null); case 'number': return __prepare.full(pDb, xSql, xSqlLen, prepFlags, ppStmt, pzTail); default: return util.sqlite3__wasm_db_error( pDb, capi.SQLITE_MISUSE, "Invalid SQL argument type for sqlite3_prepare_v2/v3()." ); } }; /* Documented in the capi object's initializer. */ capi.sqlite3_prepare_v2 = function f(pDb, sql, sqlLen, ppStmt, pzTail){ return (f.length===arguments.length) ? capi.sqlite3_prepare_v3(pDb, sql, sqlLen, 0, ppStmt, pzTail) : __dbArgcMismatch(pDb,"sqlite3_prepare_v2",f.length); }; }/*sqlite3_prepare_v2/v3()*/ {/*sqlite3_bind_text/blob()*/ const __bindText = wasm.xWrap("sqlite3_bind_text", "int", [ "sqlite3_stmt*", "int", "string", "int", "*" ]); const __bindBlob = wasm.xWrap("sqlite3_bind_blob", "int", [ "sqlite3_stmt*", "int", "*", "int", "*" ]); /** Documented in the capi object's initializer. */ capi.sqlite3_bind_text = function f(pStmt, iCol, text, nText, xDestroy){ if(f.length!==arguments.length){ return __dbArgcMismatch(capi.sqlite3_db_handle(pStmt), "sqlite3_bind_text", f.length); }else if(wasm.isPtr(text) || null===text){ return __bindText(pStmt, iCol, text, nText, xDestroy); }else if(text instanceof ArrayBuffer){ text = new Uint8Array(text); }else if(Array.isArray(pMem)){ text = pMem.join(''); } let p, n; try{ if(util.isSQLableTypedArray(text)){ p = wasm.allocFromTypedArray(text); n = text.byteLength; }else if('string'===typeof text){ [p, n] = wasm.allocCString(text); }else{ return util.sqlite3__wasm_db_error( capi.sqlite3_db_handle(pStmt), capi.SQLITE_MISUSE, "Invalid 3rd argument type for sqlite3_bind_text()." ); } return __bindText(pStmt, iCol, p, n, capi.SQLITE_WASM_DEALLOC); }catch(e){ wasm.dealloc(p); return util.sqlite3__wasm_db_error( capi.sqlite3_db_handle(pStmt), e ); } }/*sqlite3_bind_text()*/; /** Documented in the capi object's initializer. */ capi.sqlite3_bind_blob = function f(pStmt, iCol, pMem, nMem, xDestroy){ if(f.length!==arguments.length){ return __dbArgcMismatch(capi.sqlite3_db_handle(pStmt), "sqlite3_bind_blob", f.length); }else if(wasm.isPtr(pMem) || null===pMem){ return __bindBlob(pStmt, iCol, pMem, nMem, xDestroy); }else if(pMem instanceof ArrayBuffer){ pMem = new Uint8Array(pMem); }else if(Array.isArray(pMem)){ pMem = pMem.join(''); } let p, n; try{ if(util.isBindableTypedArray(pMem)){ p = wasm.allocFromTypedArray(pMem); n = nMem>=0 ? nMem : pMem.byteLength; }else if('string'===typeof pMem){ [p, n] = wasm.allocCString(pMem); }else{ return util.sqlite3__wasm_db_error( capi.sqlite3_db_handle(pStmt), capi.SQLITE_MISUSE, "Invalid 3rd argument type for sqlite3_bind_blob()." ); } return __bindBlob(pStmt, iCol, p, n, capi.SQLITE_WASM_DEALLOC); }catch(e){ wasm.dealloc(p); return util.sqlite3__wasm_db_error( capi.sqlite3_db_handle(pStmt), e ); } }/*sqlite3_bind_blob()*/; }/*sqlite3_bind_text/blob()*/ {/* sqlite3_config() */ /** Wraps a small subset of the C API's sqlite3_config() options. Unsupported options trigger the return of capi.SQLITE_NOTFOUND. Passing fewer than 2 arguments triggers return of capi.SQLITE_MISUSE. */ capi.sqlite3_config = function(op, ...args){ if(arguments.length<2) return capi.SQLITE_MISUSE; switch(op){ case capi.SQLITE_CONFIG_COVERING_INDEX_SCAN: // 20 /* int */ case capi.SQLITE_CONFIG_MEMSTATUS:// 9 /* boolean */ case capi.SQLITE_CONFIG_SMALL_MALLOC: // 27 /* boolean */ case capi.SQLITE_CONFIG_SORTERREF_SIZE: // 28 /* int nByte */ case capi.SQLITE_CONFIG_STMTJRNL_SPILL: // 26 /* int nByte */ case capi.SQLITE_CONFIG_URI:// 17 /* int */ return wasm.exports.sqlite3__wasm_config_i(op, args[0]); case capi.SQLITE_CONFIG_LOOKASIDE: // 13 /* int int */ return wasm.exports.sqlite3__wasm_config_ii(op, args[0], args[1]); case capi.SQLITE_CONFIG_MEMDB_MAXSIZE: // 29 /* sqlite3_int64 */ return wasm.exports.sqlite3__wasm_config_j(op, args[0]); case capi.SQLITE_CONFIG_GETMALLOC: // 5 /* sqlite3_mem_methods* */ case capi.SQLITE_CONFIG_GETMUTEX: // 11 /* sqlite3_mutex_methods* */ case capi.SQLITE_CONFIG_GETPCACHE2: // 19 /* sqlite3_pcache_methods2* */ case capi.SQLITE_CONFIG_GETPCACHE: // 15 /* no-op */ case capi.SQLITE_CONFIG_HEAP: // 8 /* void*, int nByte, int min */ case capi.SQLITE_CONFIG_LOG: // 16 /* xFunc, void* */ case capi.SQLITE_CONFIG_MALLOC:// 4 /* sqlite3_mem_methods* */ case capi.SQLITE_CONFIG_MMAP_SIZE: // 22 /* sqlite3_int64, sqlite3_int64 */ case capi.SQLITE_CONFIG_MULTITHREAD: // 2 /* nil */ case capi.SQLITE_CONFIG_MUTEX: // 10 /* sqlite3_mutex_methods* */ case capi.SQLITE_CONFIG_PAGECACHE: // 7 /* void*, int sz, int N */ case capi.SQLITE_CONFIG_PCACHE2: // 18 /* sqlite3_pcache_methods2* */ case capi.SQLITE_CONFIG_PCACHE: // 14 /* no-op */ case capi.SQLITE_CONFIG_PCACHE_HDRSZ: // 24 /* int *psz */ case capi.SQLITE_CONFIG_PMASZ: // 25 /* unsigned int szPma */ case capi.SQLITE_CONFIG_SERIALIZED: // 3 /* nil */ case capi.SQLITE_CONFIG_SINGLETHREAD: // 1 /* nil */: case capi.SQLITE_CONFIG_SQLLOG: // 21 /* xSqllog, void* */ case capi.SQLITE_CONFIG_WIN32_HEAPSIZE: // 23 /* int nByte */ default: /* maintenance note: we specifically do not include SQLITE_CONFIG_ROWID_IN_VIEW here, on the grounds that it's only for legacy support and no apps written with this API require that. */ return capi.SQLITE_NOTFOUND; } }; }/* sqlite3_config() */ {/*auto-extension bindings.*/ const __autoExtFptr = new Set; capi.sqlite3_auto_extension = function(fPtr){ if( fPtr instanceof Function ){ fPtr = wasm.installFunction('i(ppp)', fPtr); }else if( 1!==arguments.length || !wasm.isPtr(fPtr) ){ return capi.SQLITE_MISUSE; } const rc = wasm.exports.sqlite3_auto_extension(fPtr); if( fPtr!==arguments[0] ){ if(0===rc) __autoExtFptr.add(fPtr); else wasm.uninstallFunction(fPtr); } return rc; }; capi.sqlite3_cancel_auto_extension = function(fPtr){ /* We do not do an automatic JS-to-WASM function conversion here because it would be senseless: the converted pointer would never possibly match an already-installed one. */; if(!fPtr || 1!==arguments.length || !wasm.isPtr(fPtr)) return 0; return wasm.exports.sqlite3_cancel_auto_extension(fPtr); /* Note that it "cannot happen" that a client passes a pointer which is in __autoExtFptr because __autoExtFptr only contains automatic conversions created inside sqlite3_auto_extension() and never exposed to the client. */ }; capi.sqlite3_reset_auto_extension = function(){ wasm.exports.sqlite3_reset_auto_extension(); for(const fp of __autoExtFptr) wasm.uninstallFunction(fp); __autoExtFptr.clear(); }; }/* auto-extension */ const pKvvfs = capi.sqlite3_vfs_find("kvvfs"); if( pKvvfs ){/* kvvfs-specific glue */ if(util.isUIThread()){ const kvvfsMethods = new capi.sqlite3_kvvfs_methods( wasm.exports.sqlite3__wasm_kvvfs_methods() ); delete capi.sqlite3_kvvfs_methods; const kvvfsMakeKey = wasm.exports.sqlite3__wasm_kvvfsMakeKeyOnPstack, pstack = wasm.pstack; const kvvfsStorage = (zClass)=> ((115/*=='s'*/===wasm.peek(zClass)) ? sessionStorage : localStorage); /** Implementations for members of the object referred to by sqlite3__wasm_kvvfs_methods(). We swap out the native implementations with these, which use localStorage or sessionStorage for their backing store. */ const kvvfsImpls = { xRead: (zClass, zKey, zBuf, nBuf)=>{ const stack = pstack.pointer, astack = wasm.scopedAllocPush(); try { const zXKey = kvvfsMakeKey(zClass,zKey); if(!zXKey) return -3/*OOM*/; const jKey = wasm.cstrToJs(zXKey); const jV = kvvfsStorage(zClass).getItem(jKey); if(!jV) return -1; const nV = jV.length /* Note that we are relying 100% on v being ASCII so that jV.length is equal to the C-string's byte length. */; if(nBuf<=0) return nV; else if(1===nBuf){ wasm.poke(zBuf, 0); return nV; } const zV = wasm.scopedAllocCString(jV); if(nBuf > nV + 1) nBuf = nV + 1; wasm.heap8u().copyWithin(zBuf, zV, zV + nBuf - 1); wasm.poke(zBuf + nBuf - 1, 0); return nBuf - 1; }catch(e){ console.error("kvstorageRead()",e); return -2; }finally{ pstack.restore(stack); wasm.scopedAllocPop(astack); } }, xWrite: (zClass, zKey, zData)=>{ const stack = pstack.pointer; try { const zXKey = kvvfsMakeKey(zClass,zKey); if(!zXKey) return 1/*OOM*/; const jKey = wasm.cstrToJs(zXKey); kvvfsStorage(zClass).setItem(jKey, wasm.cstrToJs(zData)); return 0; }catch(e){ console.error("kvstorageWrite()",e); return capi.SQLITE_IOERR; }finally{ pstack.restore(stack); } }, xDelete: (zClass, zKey)=>{ const stack = pstack.pointer; try { const zXKey = kvvfsMakeKey(zClass,zKey); if(!zXKey) return 1/*OOM*/; kvvfsStorage(zClass).removeItem(wasm.cstrToJs(zXKey)); return 0; }catch(e){ console.error("kvstorageDelete()",e); return capi.SQLITE_IOERR; }finally{ pstack.restore(stack); } } }/*kvvfsImpls*/; for(const k of Object.keys(kvvfsImpls)){ kvvfsMethods[kvvfsMethods.memberKey(k)] = wasm.installFunction( kvvfsMethods.memberSignature(k), kvvfsImpls[k] ); } }else{ /* Worker thread: unregister kvvfs to avoid it being used for anything other than local/sessionStorage. It "can" be used that way but it's not really intended to be. */ capi.sqlite3_vfs_unregister(pKvvfs); } }/*pKvvfs*/ /* Warn if client-level code makes use of FuncPtrAdapter. */ wasm.xWrap.FuncPtrAdapter.warnOnUse = true; const StructBinder = sqlite3.StructBinder /* we require a local alias b/c StructBinder is removed from the sqlite3 object during the final steps of the API cleanup. */; /** Installs a StructBinder-bound function pointer member of the given name and function in the given StructBinder.StructType target object. It creates a WASM proxy for the given function and arranges for that proxy to be cleaned up when tgt.dispose() is called. Throws on the slightest hint of error, e.g. tgt is-not-a StructType, name does not map to a struct-bound member, etc. As a special case, if the given function is a pointer, then `wasm.functionEntry()` is used to validate that it is a known function. If so, it is used as-is with no extra level of proxying or cleanup, else an exception is thrown. It is legal to pass a value of 0, indicating a NULL pointer, with the caveat that 0 _is_ a legal function pointer in WASM but it will not be accepted as such _here_. (Justification: the function at address zero must be one which initially came from the WASM module, not a method we want to bind to a virtual table or VFS.) This function returns a proxy for itself which is bound to tgt and takes 2 args (name,func). That function returns the same thing as this one, permitting calls to be chained. If called with only 1 arg, it has no side effects but returns a func with the same signature as described above. ACHTUNG: because we cannot generically know how to transform JS exceptions into result codes, the installed functions do no automatic catching of exceptions. It is critical, to avoid undefined behavior in the C layer, that methods mapped via this function do not throw. The exception, as it were, to that rule is... If applyArgcCheck is true then each JS function (as opposed to function pointers) gets wrapped in a proxy which asserts that it is passed the expected number of arguments, throwing if the argument count does not match expectations. That is only intended for dev-time usage for sanity checking, and may leave the C environment in an undefined state. */ const installMethod = function callee( tgt, name, func, applyArgcCheck = callee.installMethodArgcCheck ){ if(!(tgt instanceof StructBinder.StructType)){ toss("Usage error: target object is-not-a StructType."); }else if(!(func instanceof Function) && !wasm.isPtr(func)){ toss("Usage errror: expecting a Function or WASM pointer to one."); } if(1===arguments.length){ return (n,f)=>callee(tgt, n, f, applyArgcCheck); } if(!callee.argcProxy){ callee.argcProxy = function(tgt, funcName, func,sig){ return function(...args){ if(func.length!==arguments.length){ toss("Argument mismatch for", tgt.structInfo.name+"::"+funcName +": Native signature is:",sig); } return func.apply(this, args); } }; /* An ondispose() callback for use with StructBinder-created types. */ callee.removeFuncList = function(){ if(this.ondispose.__removeFuncList){ this.ondispose.__removeFuncList.forEach( (v,ndx)=>{ if('number'===typeof v){ try{wasm.uninstallFunction(v)} catch(e){/*ignore*/} } /* else it's a descriptive label for the next number in the list. */ } ); delete this.ondispose.__removeFuncList; } }; }/*static init*/ const sigN = tgt.memberSignature(name); if(sigN.length<2){ toss("Member",name,"does not have a function pointer signature:",sigN); } const memKey = tgt.memberKey(name); const fProxy = (applyArgcCheck && !wasm.isPtr(func)) /** This middle-man proxy is only for use during development, to confirm that we always pass the proper number of arguments. We know that the C-level code will always use the correct argument count. */ ? callee.argcProxy(tgt, memKey, func, sigN) : func; if(wasm.isPtr(fProxy)){ if(fProxy && !wasm.functionEntry(fProxy)){ toss("Pointer",fProxy,"is not a WASM function table entry."); } tgt[memKey] = fProxy; }else{ const pFunc = wasm.installFunction(fProxy, tgt.memberSignature(name, true)); tgt[memKey] = pFunc; if(!tgt.ondispose || !tgt.ondispose.__removeFuncList){ tgt.addOnDispose('ondispose.__removeFuncList handler', callee.removeFuncList); tgt.ondispose.__removeFuncList = []; } tgt.ondispose.__removeFuncList.push(memKey, pFunc); } return (n,f)=>callee(tgt, n, f, applyArgcCheck); }/*installMethod*/; installMethod.installMethodArgcCheck = false; /** Installs methods into the given StructBinder.StructType-type instance. Each entry in the given methods object must map to a known member of the given StructType, else an exception will be triggered. See installMethod() for more details, including the semantics of the 3rd argument. As an exception to the above, if any two or more methods in the 2nd argument are the exact same function, installMethod() is _not_ called for the 2nd and subsequent instances, and instead those instances get assigned the same method pointer which is created for the first instance. This optimization is primarily to accommodate special handling of sqlite3_module::xConnect and xCreate methods. On success, returns its first argument. Throws on error. */ const installMethods = function( structInstance, methods, applyArgcCheck = installMethod.installMethodArgcCheck ){ const seen = new Map /* map of */; for(const k of Object.keys(methods)){ const m = methods[k]; const prior = seen.get(m); if(prior){ const mkey = structInstance.memberKey(k); structInstance[mkey] = structInstance[structInstance.memberKey(prior)]; }else{ installMethod(structInstance, k, m, applyArgcCheck); seen.set(m, k); } } return structInstance; }; /** Equivalent to calling installMethod(this,...arguments) with a first argument of this object. If called with 1 or 2 arguments and the first is an object, it's instead equivalent to calling installMethods(this,...arguments). */ StructBinder.StructType.prototype.installMethod = function callee( name, func, applyArgcCheck = installMethod.installMethodArgcCheck ){ return (arguments.length < 3 && name && 'object'===typeof name) ? installMethods(this, ...arguments) : installMethod(this, ...arguments); }; /** Equivalent to calling installMethods() with a first argument of this object. */ StructBinder.StructType.prototype.installMethods = function( methods, applyArgcCheck = installMethod.installMethodArgcCheck ){ return installMethods(this, methods, applyArgcCheck); }; });