third_party/blink/web_tests/fast/wasm/wasm-module-builder.js - chromium/src - Git at Google

 // Copyright 2017 the V8 project authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 // Used for encoding f32 and double constants to bits.
 let __buffer = new ArrayBuffer(8);
 let byte_view = new Int8Array(__buffer);
 let f32_view = new Float32Array(__buffer);
 let f64_view = new Float64Array(__buffer);

 class Binary extends Array {
   emit_u8(val) {
     this.push(val);
   }

   emit_u16(val) {
     this.push(val & 0xff);
     this.push((val >> 8) & 0xff);
   }

   emit_u32(val) {
     this.push(val & 0xff);
     this.push((val >> 8) & 0xff);
     this.push((val >> 16) & 0xff);
     this.push((val >> 24) & 0xff);
   }

   emit_u32v(val) {
     while (true) {
       let v = val & 0xff;
       val = val >>> 7;
       if (val == 0) {
         this.push(v);
         break;
       }
       this.push(v | 0x80);
     }
   }

   emit_bytes(data) {
     for (let i = 0; i < data.length; i++) {
       this.push(data[i] & 0xff);
     }
   }

   emit_string(string) {
     // When testing illegal names, we pass a byte array directly.
     if (string instanceof Array) {
       this.emit_u32v(string.length);
       this.emit_bytes(string);
       return;
     }

     // This is the hacky way to convert a JavaScript string to a UTF8 encoded
     // string only containing single-byte characters.
     let string_utf8 = unescape(encodeURIComponent(string));
     this.emit_u32v(string_utf8.length);
     for (let i = 0; i < string_utf8.length; i++) {
       this.emit_u8(string_utf8.charCodeAt(i));
     }
   }

   emit_header() {
     this.push(kWasmH0, kWasmH1, kWasmH2, kWasmH3,
               kWasmV0, kWasmV1, kWasmV2, kWasmV3);
   }

   emit_section(section_code, content_generator) {
     // Emit section name.
     this.emit_u8(section_code);
     // Emit the section to a temporary buffer: its full length isn't know yet.
     let section = new Binary;
     content_generator(section);
     // Emit section length.
     this.emit_u32v(section.length);
     // Copy the temporary buffer.
     this.push(...section);
   }
 }

 class WasmFunctionBuilder {
   constructor(module, name, type_index) {
     this.module = module;
     this.name = name;
     this.type_index = type_index;
     this.body = [];
   }

   exportAs(name) {
     this.module.addExport(name, this.index);
     return this;
   }

   exportFunc() {
     this.exportAs(this.name);
     return this;
   }

   addBody(body) {
     for (let b of body) {
       if (typeof b != 'number') throw new Error("invalid body");
     }
     this.body = body;
     // Automatically add the end for the function block to the body.
     body.push(kExprEnd);
     return this;
   }

   addBodyWithEnd(body) {
     this.body = body;
     return this;
   }

   addLocals(locals) {
     this.locals = locals;
     return this;
   }

   end() {
     return this.module;
   }
 }

 class WasmGlobalBuilder {
   constructor(module, type, mutable) {
     this.module = module;
     this.type = type;
     this.mutable = mutable;
     this.init = 0;
   }

   exportAs(name) {
     this.module.exports.push({name: name, kind: kExternalGlobal,
                               index: this.index});
     return this;
   }
 }

 class WasmModuleBuilder {
   constructor() {
     this.types = [];
     this.imports = [];
     this.exports = [];
     this.globals = [];
     this.functions = [];
     this.function_table = [];
     this.function_table_length = 0;
     this.function_table_inits = [];
     this.segments = [];
     this.explicit = [];
     this.num_imported_funcs = 0;
     this.num_imported_globals = 0;
     return this;
   }

   addStart(start_index) {
     this.start_index = start_index;
     return this;
   }

   addMemory(min, max, exp) {
     this.memory = {min: min, max: max, exp: exp};
     return this;
   }

   addExplicitSection(bytes) {
     this.explicit.push(bytes);
     return this;
   }

   stringToBytes(name) {
     var result = new Binary();
     result.emit_u32v(name.length);
     for (var i = 0; i < name.length; i++) {
       result.emit_u8(name.charCodeAt(i));
     }
     return result;
   }

   addCustomSection(name, bytes) {
     name = this.stringToBytes(name);
     var length = new Binary();
     length.emit_u32v(name.length + bytes.length);
     this.explicit.push([0, ...length, ...name, ...bytes]);
   }

   addType(type) {
     // TODO: canonicalize types?
     this.types.push(type);
     return this.types.length - 1;
   }

   addGlobal(local_type, mutable) {
     let glob = new WasmGlobalBuilder(this, local_type, mutable);
     glob.index = this.globals.length + this.num_imported_globals;
     this.globals.push(glob);
     return glob;
   }

   addFunction(name, type) {
     let type_index = (typeof type) == "number" ? type : this.addType(type);
     let func = new WasmFunctionBuilder(this, name, type_index);
     func.index = this.functions.length + this.num_imported_funcs;
     this.functions.push(func);
     return func;
   }

   addImport(module = "", name, type) {
     let type_index = (typeof type) == "number" ? type : this.addType(type);
     this.imports.push({module: module, name: name, kind: kExternalFunction,
                        type: type_index});
     return this.num_imported_funcs++;
   }

   addImportedGlobal(module = "", name, type) {
     let o = {module: module, name: name, kind: kExternalGlobal, type: type,
              mutable: false}
     this.imports.push(o);
     return this.num_imported_globals++;
   }

   addImportedMemory(module = "", name, initial = 0, maximum) {
     let o = {module: module, name: name, kind: kExternalMemory,
              initial: initial, maximum: maximum};
     this.imports.push(o);
     return this;
   }

   addImportedTable(module = "", name, initial, maximum) {
     let o = {module: module, name: name, kind: kExternalTable, initial: initial,
              maximum: maximum};
     this.imports.push(o);
   }

   addExport(name, index) {
     this.exports.push({name: name, kind: kExternalFunction, index: index});
     return this;
   }

   addExportOfKind(name, kind, index) {
     this.exports.push({name: name, kind: kind, index: index});
     return this;
   }

   addDataSegment(addr, data, is_global = false) {
     this.segments.push({addr: addr, data: data, is_global: is_global});
     return this.segments.length - 1;
   }

   exportMemoryAs(name) {
     this.exports.push({name: name, kind: kExternalMemory, index: 0});
   }

   addFunctionTableInit(base, is_global, array, is_import = false) {
     this.function_table_inits.push({base: base, is_global: is_global,
                                     array: array});
     if (!is_global) {
       var length = base + array.length;
       if (length > this.function_table_length && !is_import) {
         this.function_table_length = length;
       }
     }
     return this;
   }

   appendToTable(array) {
     return this.addFunctionTableInit(this.function_table.length, false, array);
   }

   setFunctionTableLength(length) {
     this.function_table_length = length;
     return this;
   }

   toArray(debug = false) {
     let binary = new Binary;
     let wasm = this;

     // Add header
     binary.emit_header();

     // Add type section
     if (wasm.types.length > 0) {
       if (debug) print("emitting types @ " + binary.length);
       binary.emit_section(kTypeSectionCode, section => {
         section.emit_u32v(wasm.types.length);
         for (let type of wasm.types) {
           section.emit_u8(kWasmFunctionTypeForm);
           section.emit_u32v(type.params.length);
           for (let param of type.params) {
             section.emit_u8(param);
           }
           section.emit_u32v(type.results.length);
           for (let result of type.results) {
             section.emit_u8(result);
           }
         }
       });
     }

     // Add imports section
     if (wasm.imports.length > 0) {
       if (debug) print("emitting imports @ " + binary.length);
       binary.emit_section(kImportSectionCode, section => {
         section.emit_u32v(wasm.imports.length);
         for (let imp of wasm.imports) {
           section.emit_string(imp.module);
           section.emit_string(imp.name || '');
           section.emit_u8(imp.kind);
           if (imp.kind == kExternalFunction) {
             section.emit_u32v(imp.type);
           } else if (imp.kind == kExternalGlobal) {
             section.emit_u32v(imp.type);
             section.emit_u8(imp.mutable);
           } else if (imp.kind == kExternalMemory) {
             var has_max = (typeof imp.maximum) != "undefined";
             section.emit_u8(has_max ? 1 : 0); // flags
             section.emit_u32v(imp.initial); // initial
             if (has_max) section.emit_u32v(imp.maximum); // maximum
           } else if (imp.kind == kExternalTable) {
             section.emit_u8(kWasmAnyFunctionTypeForm);
             var has_max = (typeof imp.maximum) != "undefined";
             section.emit_u8(has_max ? 1 : 0); // flags
             section.emit_u32v(imp.initial); // initial
             if (has_max) section.emit_u32v(imp.maximum); // maximum
           } else {
             throw new Error("unknown/unsupported import kind " + imp.kind);
           }
         }
       });
     }

     // Add functions declarations
     let has_names = false;
     let names = false;
     if (wasm.functions.length > 0) {
       if (debug) print("emitting function decls @ " + binary.length);
       binary.emit_section(kFunctionSectionCode, section => {
         section.emit_u32v(wasm.functions.length);
         for (let func of wasm.functions) {
           has_names = has_names || (func.name != undefined &&
                                    func.name.length > 0);
           section.emit_u32v(func.type_index);
         }
       });
     }

     // Add function_table.
     if (wasm.function_table_length > 0) {
       if (debug) print("emitting table @ " + binary.length);
       binary.emit_section(kTableSectionCode, section => {
         section.emit_u8(1);  // one table entry
         section.emit_u8(kWasmAnyFunctionTypeForm);
         section.emit_u8(1);
         section.emit_u32v(wasm.function_table_length);
         section.emit_u32v(wasm.function_table_length);
       });
     }

     // Add memory section
     if (wasm.memory != undefined) {
       if (debug) print("emitting memory @ " + binary.length);
       binary.emit_section(kMemorySectionCode, section => {
         section.emit_u8(1);  // one memory entry
         section.emit_u32v(kResizableMaximumFlag);
         section.emit_u32v(wasm.memory.min);
         section.emit_u32v(wasm.memory.max);
       });
     }

     // Add global section.
     if (wasm.globals.length > 0) {
       if (debug) print ("emitting globals @ " + binary.length);
       binary.emit_section(kGlobalSectionCode, section => {
         section.emit_u32v(wasm.globals.length);
         for (let global of wasm.globals) {
           section.emit_u8(global.type);
           section.emit_u8(global.mutable);
           if ((typeof global.init_index) == "undefined") {
             // Emit a constant initializer.
             switch (global.type) {
             case kWasmI32:
               section.emit_u8(kExprI32Const);
               section.emit_u32v(global.init);
               break;
             case kWasmI64:
               section.emit_u8(kExprI64Const);
               section.emit_u32v(global.init);
               break;
             case kWasmF32:
               section.emit_u8(kExprF32Const);
               f32_view[0] = global.init;
               section.emit_u8(byte_view[0]);
               section.emit_u8(byte_view[1]);
               section.emit_u8(byte_view[2]);
               section.emit_u8(byte_view[3]);
               break;
             case kWasmF64:
               section.emit_u8(kExprF64Const);
               f64_view[0] = global.init;
               section.emit_u8(byte_view[0]);
               section.emit_u8(byte_view[1]);
               section.emit_u8(byte_view[2]);
               section.emit_u8(byte_view[3]);
               section.emit_u8(byte_view[4]);
               section.emit_u8(byte_view[5]);
               section.emit_u8(byte_view[6]);
               section.emit_u8(byte_view[7]);
               break;
             }
           } else {
             // Emit a global-index initializer.
             section.emit_u8(kExprGetGlobal);
             section.emit_u32v(global.init_index);
           }
           section.emit_u8(kExprEnd);  // end of init expression
         }
       });
     }

     // Add export table.
     var mem_export = (wasm.memory != undefined && wasm.memory.exp);
     var exports_count = wasm.exports.length + (mem_export ? 1 : 0);
     if (exports_count > 0) {
       if (debug) print("emitting exports @ " + binary.length);
       binary.emit_section(kExportSectionCode, section => {
         section.emit_u32v(exports_count);
         for (let exp of wasm.exports) {
           section.emit_string(exp.name);
           section.emit_u8(exp.kind);
           section.emit_u32v(exp.index);
         }
         if (mem_export) {
           section.emit_string("memory");
           section.emit_u8(kExternalMemory);
           section.emit_u8(0);
         }
       });
     }

     // Add start function section.
     if (wasm.start_index != undefined) {
       if (debug) print("emitting start function @ " + binary.length);
       binary.emit_section(kStartSectionCode, section => {
         section.emit_u32v(wasm.start_index);
       });
     }

     // Add table elements.
     if (wasm.function_table_inits.length > 0) {
       if (debug) print("emitting table @ " + binary.length);
       binary.emit_section(kElementSectionCode, section => {
         var inits = wasm.function_table_inits;
         section.emit_u32v(inits.length);
         section.emit_u8(0); // table index

         for (let init of inits) {
           if (init.is_global) {
             section.emit_u8(kExprGetGlobal);
           } else {
             section.emit_u8(kExprI32Const);
           }
           section.emit_u32v(init.base);
           section.emit_u8(kExprEnd);
           section.emit_u32v(init.array.length);
           for (let index of init.array) {
             section.emit_u32v(index);
           }
         }
       });
     }

     // Add function bodies.
     if (wasm.functions.length > 0) {
       // emit function bodies
       if (debug) print("emitting code @ " + binary.length);
       binary.emit_section(kCodeSectionCode, section => {
         section.emit_u32v(wasm.functions.length);
         for (let func of wasm.functions) {
           // Function body length will be patched later.
           let local_decls = [];
           let l = func.locals;
           if (l != undefined) {
             let local_decls_count = 0;
             if (l.i32_count > 0) {
               local_decls.push({count: l.i32_count, type: kWasmI32});
             }
             if (l.i64_count > 0) {
               local_decls.push({count: l.i64_count, type: kWasmI64});
             }
             if (l.f32_count > 0) {
               local_decls.push({count: l.f32_count, type: kWasmF32});
             }
             if (l.f64_count > 0) {
               local_decls.push({count: l.f64_count, type: kWasmF64});
             }
           }

           let header = new Binary;
           header.emit_u32v(local_decls.length);
           for (let decl of local_decls) {
             header.emit_u32v(decl.count);
             header.emit_u8(decl.type);
           }

           section.emit_u32v(header.length + func.body.length);
           section.emit_bytes(header);
           section.emit_bytes(func.body);
         }
       });
     }

     // Add data segments.
     if (wasm.segments.length > 0) {
       if (debug) print("emitting data segments @ " + binary.length);
       binary.emit_section(kDataSectionCode, section => {
         section.emit_u32v(wasm.segments.length);
         for (let seg of wasm.segments) {
           section.emit_u8(0);  // linear memory index 0
           if (seg.is_global) {
             // initializer is a global variable
             section.emit_u8(kExprGetGlobal);
             section.emit_u32v(seg.addr);
           } else {
             // initializer is a constant
             section.emit_u8(kExprI32Const);
             section.emit_u32v(seg.addr);
           }
           section.emit_u8(kExprEnd);
           section.emit_u32v(seg.data.length);
           section.emit_bytes(seg.data);
         }
       });
     }

     // Add any explicitly added sections
     for (let exp of wasm.explicit) {
       if (debug) print("emitting explicit @ " + binary.length);
       binary.emit_bytes(exp);
     }

     // Add function names.
     if (has_names) {
       if (debug) print("emitting names @ " + binary.length);
       binary.emit_section(kUnknownSectionCode, section => {
         section.emit_string("name");
         var count = wasm.functions.length + wasm.num_imported_funcs;
         section.emit_u32v(count);
         for (var i = 0; i < wasm.num_imported_funcs; i++) {
           section.emit_u8(0); // empty string
           section.emit_u8(0); // local names count == 0
         }
         for (let func of wasm.functions) {
           var name = func.name == undefined ? "" : func.name;
           section.emit_string(name);
           section.emit_u8(0);  // local names count == 0
         }
       });
     }

     return binary;
   }

   toBuffer(debug = false) {
     let bytes = this.toArray(debug);
     let buffer = new ArrayBuffer(bytes.length);
     let view = new Uint8Array(buffer);
     for (let i = 0; i < bytes.length; i++) {
       let val = bytes[i];
       if ((typeof val) == "string") val = val.charCodeAt(0);
       view[i] = val | 0;
     }
     return buffer;
   }

   instantiate(ffi) {
     let module = new WebAssembly.Module(this.toBuffer());
     let instance = new WebAssembly.Instance(module, ffi);
     return instance;
   }
 }
	// Copyright 2017 the V8 project authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	// Used for encoding f32 and double constants to bits.
	let __buffer = new ArrayBuffer(8);
	let byte_view = new Int8Array(__buffer);
	let f32_view = new Float32Array(__buffer);
	let f64_view = new Float64Array(__buffer);

	class Binary extends Array {
	emit_u8(val) {
	this.push(val);
	}

	emit_u16(val) {
	this.push(val & 0xff);
	this.push((val >> 8) & 0xff);
	}

	emit_u32(val) {
	this.push(val & 0xff);
	this.push((val >> 8) & 0xff);
	this.push((val >> 16) & 0xff);
	this.push((val >> 24) & 0xff);
	}

	emit_u32v(val) {
	while (true) {
	let v = val & 0xff;
	val = val >>> 7;
	if (val == 0) {
	this.push(v);
	break;
	}
	this.push(v \| 0x80);
	}
	}

	emit_bytes(data) {
	for (let i = 0; i < data.length; i++) {
	this.push(data[i] & 0xff);
	}
	}

	emit_string(string) {
	// When testing illegal names, we pass a byte array directly.
	if (string instanceof Array) {
	this.emit_u32v(string.length);
	this.emit_bytes(string);
	return;
	}

	// This is the hacky way to convert a JavaScript string to a UTF8 encoded
	// string only containing single-byte characters.
	let string_utf8 = unescape(encodeURIComponent(string));
	this.emit_u32v(string_utf8.length);
	for (let i = 0; i < string_utf8.length; i++) {
	this.emit_u8(string_utf8.charCodeAt(i));
	}
	}

	emit_header() {
	this.push(kWasmH0, kWasmH1, kWasmH2, kWasmH3,
	kWasmV0, kWasmV1, kWasmV2, kWasmV3);
	}

	emit_section(section_code, content_generator) {
	// Emit section name.
	this.emit_u8(section_code);
	// Emit the section to a temporary buffer: its full length isn't know yet.
	let section = new Binary;
	content_generator(section);
	// Emit section length.
	this.emit_u32v(section.length);
	// Copy the temporary buffer.
	this.push(...section);
	}
	}

	class WasmFunctionBuilder {
	constructor(module, name, type_index) {
	this.module = module;
	this.name = name;
	this.type_index = type_index;
	this.body = [];
	}

	exportAs(name) {
	this.module.addExport(name, this.index);
	return this;
	}

	exportFunc() {
	this.exportAs(this.name);
	return this;
	}

	addBody(body) {
	for (let b of body) {
	if (typeof b != 'number') throw new Error("invalid body");
	}
	this.body = body;
	// Automatically add the end for the function block to the body.
	body.push(kExprEnd);
	return this;
	}

	addBodyWithEnd(body) {
	this.body = body;
	return this;
	}

	addLocals(locals) {
	this.locals = locals;
	return this;
	}

	end() {
	return this.module;
	}
	}

	class WasmGlobalBuilder {
	constructor(module, type, mutable) {
	this.module = module;
	this.type = type;
	this.mutable = mutable;
	this.init = 0;
	}

	exportAs(name) {
	this.module.exports.push({name: name, kind: kExternalGlobal,
	index: this.index});
	return this;
	}
	}

	class WasmModuleBuilder {
	constructor() {
	this.types = [];
	this.imports = [];
	this.exports = [];
	this.globals = [];
	this.functions = [];
	this.function_table = [];
	this.function_table_length = 0;
	this.function_table_inits = [];
	this.segments = [];
	this.explicit = [];
	this.num_imported_funcs = 0;
	this.num_imported_globals = 0;
	return this;
	}

	addStart(start_index) {
	this.start_index = start_index;
	return this;
	}

	addMemory(min, max, exp) {
	this.memory = {min: min, max: max, exp: exp};
	return this;
	}

	addExplicitSection(bytes) {
	this.explicit.push(bytes);
	return this;
	}

	stringToBytes(name) {
	var result = new Binary();
	result.emit_u32v(name.length);
	for (var i = 0; i < name.length; i++) {
	result.emit_u8(name.charCodeAt(i));
	}
	return result;
	}

	addCustomSection(name, bytes) {
	name = this.stringToBytes(name);
	var length = new Binary();
	length.emit_u32v(name.length + bytes.length);
	this.explicit.push([0, ...length, ...name, ...bytes]);
	}

	addType(type) {
	// TODO: canonicalize types?
	this.types.push(type);
	return this.types.length - 1;
	}

	addGlobal(local_type, mutable) {
	let glob = new WasmGlobalBuilder(this, local_type, mutable);
	glob.index = this.globals.length + this.num_imported_globals;
	this.globals.push(glob);
	return glob;
	}

	addFunction(name, type) {
	let type_index = (typeof type) == "number" ? type : this.addType(type);
	let func = new WasmFunctionBuilder(this, name, type_index);
	func.index = this.functions.length + this.num_imported_funcs;
	this.functions.push(func);
	return func;
	}

	addImport(module = "", name, type) {
	let type_index = (typeof type) == "number" ? type : this.addType(type);
	this.imports.push({module: module, name: name, kind: kExternalFunction,
	type: type_index});
	return this.num_imported_funcs++;
	}

	addImportedGlobal(module = "", name, type) {
	let o = {module: module, name: name, kind: kExternalGlobal, type: type,
	mutable: false}
	this.imports.push(o);
	return this.num_imported_globals++;
	}

	addImportedMemory(module = "", name, initial = 0, maximum) {
	let o = {module: module, name: name, kind: kExternalMemory,
	initial: initial, maximum: maximum};
	this.imports.push(o);
	return this;
	}

	addImportedTable(module = "", name, initial, maximum) {
	let o = {module: module, name: name, kind: kExternalTable, initial: initial,
	maximum: maximum};
	this.imports.push(o);
	}

	addExport(name, index) {
	this.exports.push({name: name, kind: kExternalFunction, index: index});
	return this;
	}

	addExportOfKind(name, kind, index) {
	this.exports.push({name: name, kind: kind, index: index});
	return this;
	}

	addDataSegment(addr, data, is_global = false) {
	this.segments.push({addr: addr, data: data, is_global: is_global});
	return this.segments.length - 1;
	}

	exportMemoryAs(name) {
	this.exports.push({name: name, kind: kExternalMemory, index: 0});
	}

	addFunctionTableInit(base, is_global, array, is_import = false) {
	this.function_table_inits.push({base: base, is_global: is_global,
	array: array});
	if (!is_global) {
	var length = base + array.length;
	if (length > this.function_table_length && !is_import) {
	this.function_table_length = length;
	}
	}
	return this;
	}

	appendToTable(array) {
	return this.addFunctionTableInit(this.function_table.length, false, array);
	}

	setFunctionTableLength(length) {
	this.function_table_length = length;
	return this;
	}

	toArray(debug = false) {
	let binary = new Binary;
	let wasm = this;

	// Add header
	binary.emit_header();

	// Add type section
	if (wasm.types.length > 0) {
	if (debug) print("emitting types @ " + binary.length);
	binary.emit_section(kTypeSectionCode, section => {
	section.emit_u32v(wasm.types.length);
	for (let type of wasm.types) {
	section.emit_u8(kWasmFunctionTypeForm);
	section.emit_u32v(type.params.length);
	for (let param of type.params) {
	section.emit_u8(param);
	}
	section.emit_u32v(type.results.length);
	for (let result of type.results) {
	section.emit_u8(result);
	}
	}
	});
	}

	// Add imports section
	if (wasm.imports.length > 0) {
	if (debug) print("emitting imports @ " + binary.length);
	binary.emit_section(kImportSectionCode, section => {
	section.emit_u32v(wasm.imports.length);
	for (let imp of wasm.imports) {
	section.emit_string(imp.module);
	section.emit_string(imp.name \|\| '');
	section.emit_u8(imp.kind);
	if (imp.kind == kExternalFunction) {
	section.emit_u32v(imp.type);
	} else if (imp.kind == kExternalGlobal) {
	section.emit_u32v(imp.type);
	section.emit_u8(imp.mutable);
	} else if (imp.kind == kExternalMemory) {
	var has_max = (typeof imp.maximum) != "undefined";
	section.emit_u8(has_max ? 1 : 0); // flags
	section.emit_u32v(imp.initial); // initial
	if (has_max) section.emit_u32v(imp.maximum); // maximum
	} else if (imp.kind == kExternalTable) {
	section.emit_u8(kWasmAnyFunctionTypeForm);
	var has_max = (typeof imp.maximum) != "undefined";
	section.emit_u8(has_max ? 1 : 0); // flags
	section.emit_u32v(imp.initial); // initial
	if (has_max) section.emit_u32v(imp.maximum); // maximum
	} else {
	throw new Error("unknown/unsupported import kind " + imp.kind);
	}
	}
	});
	}

	// Add functions declarations
	let has_names = false;
	let names = false;
	if (wasm.functions.length > 0) {
	if (debug) print("emitting function decls @ " + binary.length);
	binary.emit_section(kFunctionSectionCode, section => {
	section.emit_u32v(wasm.functions.length);
	for (let func of wasm.functions) {
	has_names = has_names \|\| (func.name != undefined &&
	func.name.length > 0);
	section.emit_u32v(func.type_index);
	}
	});
	}

	// Add function_table.
	if (wasm.function_table_length > 0) {
	if (debug) print("emitting table @ " + binary.length);
	binary.emit_section(kTableSectionCode, section => {
	section.emit_u8(1); // one table entry
	section.emit_u8(kWasmAnyFunctionTypeForm);
	section.emit_u8(1);
	section.emit_u32v(wasm.function_table_length);
	section.emit_u32v(wasm.function_table_length);
	});
	}

	// Add memory section
	if (wasm.memory != undefined) {
	if (debug) print("emitting memory @ " + binary.length);
	binary.emit_section(kMemorySectionCode, section => {
	section.emit_u8(1); // one memory entry
	section.emit_u32v(kResizableMaximumFlag);
	section.emit_u32v(wasm.memory.min);
	section.emit_u32v(wasm.memory.max);
	});
	}

	// Add global section.
	if (wasm.globals.length > 0) {
	if (debug) print ("emitting globals @ " + binary.length);
	binary.emit_section(kGlobalSectionCode, section => {
	section.emit_u32v(wasm.globals.length);
	for (let global of wasm.globals) {
	section.emit_u8(global.type);
	section.emit_u8(global.mutable);
	if ((typeof global.init_index) == "undefined") {
	// Emit a constant initializer.
	switch (global.type) {
	case kWasmI32:
	section.emit_u8(kExprI32Const);
	section.emit_u32v(global.init);
	break;
	case kWasmI64:
	section.emit_u8(kExprI64Const);
	section.emit_u32v(global.init);
	break;
	case kWasmF32:
	section.emit_u8(kExprF32Const);
	f32_view[0] = global.init;
	section.emit_u8(byte_view[0]);
	section.emit_u8(byte_view[1]);
	section.emit_u8(byte_view[2]);
	section.emit_u8(byte_view[3]);
	break;
	case kWasmF64:
	section.emit_u8(kExprF64Const);
	f64_view[0] = global.init;
	section.emit_u8(byte_view[0]);
	section.emit_u8(byte_view[1]);
	section.emit_u8(byte_view[2]);
	section.emit_u8(byte_view[3]);
	section.emit_u8(byte_view[4]);
	section.emit_u8(byte_view[5]);
	section.emit_u8(byte_view[6]);
	section.emit_u8(byte_view[7]);
	break;
	}
	} else {
	// Emit a global-index initializer.
	section.emit_u8(kExprGetGlobal);
	section.emit_u32v(global.init_index);
	}
	section.emit_u8(kExprEnd); // end of init expression
	}
	});
	}

	// Add export table.
	var mem_export = (wasm.memory != undefined && wasm.memory.exp);
	var exports_count = wasm.exports.length + (mem_export ? 1 : 0);
	if (exports_count > 0) {
	if (debug) print("emitting exports @ " + binary.length);
	binary.emit_section(kExportSectionCode, section => {
	section.emit_u32v(exports_count);
	for (let exp of wasm.exports) {
	section.emit_string(exp.name);
	section.emit_u8(exp.kind);
	section.emit_u32v(exp.index);
	}
	if (mem_export) {
	section.emit_string("memory");
	section.emit_u8(kExternalMemory);
	section.emit_u8(0);
	}
	});
	}

	// Add start function section.
	if (wasm.start_index != undefined) {
	if (debug) print("emitting start function @ " + binary.length);
	binary.emit_section(kStartSectionCode, section => {
	section.emit_u32v(wasm.start_index);
	});
	}

	// Add table elements.
	if (wasm.function_table_inits.length > 0) {
	if (debug) print("emitting table @ " + binary.length);
	binary.emit_section(kElementSectionCode, section => {
	var inits = wasm.function_table_inits;
	section.emit_u32v(inits.length);
	section.emit_u8(0); // table index

	for (let init of inits) {
	if (init.is_global) {
	section.emit_u8(kExprGetGlobal);
	} else {
	section.emit_u8(kExprI32Const);
	}
	section.emit_u32v(init.base);
	section.emit_u8(kExprEnd);
	section.emit_u32v(init.array.length);
	for (let index of init.array) {
	section.emit_u32v(index);
	}
	}
	});
	}

	// Add function bodies.
	if (wasm.functions.length > 0) {
	// emit function bodies
	if (debug) print("emitting code @ " + binary.length);
	binary.emit_section(kCodeSectionCode, section => {
	section.emit_u32v(wasm.functions.length);
	for (let func of wasm.functions) {
	// Function body length will be patched later.
	let local_decls = [];
	let l = func.locals;
	if (l != undefined) {
	let local_decls_count = 0;
	if (l.i32_count > 0) {
	local_decls.push({count: l.i32_count, type: kWasmI32});
	}
	if (l.i64_count > 0) {
	local_decls.push({count: l.i64_count, type: kWasmI64});
	}
	if (l.f32_count > 0) {
	local_decls.push({count: l.f32_count, type: kWasmF32});
	}
	if (l.f64_count > 0) {
	local_decls.push({count: l.f64_count, type: kWasmF64});
	}
	}

	let header = new Binary;
	header.emit_u32v(local_decls.length);
	for (let decl of local_decls) {
	header.emit_u32v(decl.count);
	header.emit_u8(decl.type);
	}

	section.emit_u32v(header.length + func.body.length);
	section.emit_bytes(header);
	section.emit_bytes(func.body);
	}
	});
	}

	// Add data segments.
	if (wasm.segments.length > 0) {
	if (debug) print("emitting data segments @ " + binary.length);
	binary.emit_section(kDataSectionCode, section => {
	section.emit_u32v(wasm.segments.length);
	for (let seg of wasm.segments) {
	section.emit_u8(0); // linear memory index 0
	if (seg.is_global) {
	// initializer is a global variable
	section.emit_u8(kExprGetGlobal);
	section.emit_u32v(seg.addr);
	} else {
	// initializer is a constant
	section.emit_u8(kExprI32Const);
	section.emit_u32v(seg.addr);
	}
	section.emit_u8(kExprEnd);
	section.emit_u32v(seg.data.length);
	section.emit_bytes(seg.data);
	}
	});
	}

	// Add any explicitly added sections
	for (let exp of wasm.explicit) {
	if (debug) print("emitting explicit @ " + binary.length);
	binary.emit_bytes(exp);
	}

	// Add function names.
	if (has_names) {
	if (debug) print("emitting names @ " + binary.length);
	binary.emit_section(kUnknownSectionCode, section => {
	section.emit_string("name");
	var count = wasm.functions.length + wasm.num_imported_funcs;
	section.emit_u32v(count);
	for (var i = 0; i < wasm.num_imported_funcs; i++) {
	section.emit_u8(0); // empty string
	section.emit_u8(0); // local names count == 0
	}
	for (let func of wasm.functions) {
	var name = func.name == undefined ? "" : func.name;
	section.emit_string(name);
	section.emit_u8(0); // local names count == 0
	}
	});
	}

	return binary;
	}

	toBuffer(debug = false) {
	let bytes = this.toArray(debug);
	let buffer = new ArrayBuffer(bytes.length);
	let view = new Uint8Array(buffer);
	for (let i = 0; i < bytes.length; i++) {
	let val = bytes[i];
	if ((typeof val) == "string") val = val.charCodeAt(0);
	view[i] = val \| 0;
	}
	return buffer;
	}

	instantiate(ffi) {
	let module = new WebAssembly.Module(this.toBuffer());
	let instance = new WebAssembly.Instance(module, ffi);
	return instance;
	}
	}