mirror of
https://github.com/autc04/Retro68.git
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335 lines
9.4 KiB
Go
335 lines
9.4 KiB
Go
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// Copyright 2014 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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package runtime
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import (
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"unsafe"
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)
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// For gccgo, use go:linkname to rename compiler-called functions to
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// themselves, so that the compiler will export them.
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//
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//go:linkname requireitab runtime.requireitab
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//go:linkname assertitab runtime.assertitab
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//go:linkname assertI2T runtime.assertI2T
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//go:linkname ifacetypeeq runtime.ifacetypeeq
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//go:linkname efacetype runtime.efacetype
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//go:linkname ifacetype runtime.ifacetype
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//go:linkname ifaceE2E2 runtime.ifaceE2E2
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//go:linkname ifaceI2E2 runtime.ifaceI2E2
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//go:linkname ifaceE2I2 runtime.ifaceE2I2
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//go:linkname ifaceI2I2 runtime.ifaceI2I2
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//go:linkname ifaceE2T2P runtime.ifaceE2T2P
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//go:linkname ifaceI2T2P runtime.ifaceI2T2P
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//go:linkname ifaceE2T2 runtime.ifaceE2T2
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//go:linkname ifaceI2T2 runtime.ifaceI2T2
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//go:linkname ifaceT2Ip runtime.ifaceT2Ip
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// Temporary for C code to call:
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//go:linkname getitab runtime.getitab
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// The gccgo itab structure is different than the gc one.
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//
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// Both gccgo and gc represent empty interfaces the same way:
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// a two field struct, where the first field points to a type descriptor
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// (a *_type) and the second field is the data pointer.
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//
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// Non-empty interfaces are also two-field structs, and the second
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// field is the data pointer. However, for gccgo, the first field, the
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// itab field, is different. The itab field points to the interface
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// method table, which is the implemention of a specific interface
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// type for a specific dynamic non-interface type. An interface
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// method table is a list of pointer values. The first pointer is the
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// type descriptor (a *_type) for the dynamic type. The subsequent
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// pointers are pointers to function code, which implement the methods
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// required by the interface. The pointers are sorted by name.
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//
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// The method pointers in the itab are C function pointers, not Go
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// function pointers; they may be called directly, and they have no
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// closures. The receiver is always passed as a pointer, and it is
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// always the same pointer stored in the interface value. A value
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// method starts by copying the receiver value out of the pointer into
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// a local variable.
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//
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// A method call on an interface value is by definition calling a
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// method at a known index m in the list of methods. Given a non-empty
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// interface value i, the call i.m(args) looks like
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// i.itab[m+1](i.iface, args)
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// Both an empty interface and a non-empty interface have a data
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// pointer field. The meaning of this field is determined by the
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// kindDirectIface bit in the `kind` field of the type descriptor of
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// the value stored in the interface. If kindDirectIface is set, then
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// the data pointer field in the interface value is exactly the value
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// stored in the interface. Otherwise, the data pointer field is a
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// pointer to memory that holds the value. It follows from this that
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// kindDirectIface can only be set for a type whose representation is
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// simply a pointer. In the current gccgo implementation, this is set
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// only for pointer types (including unsafe.Pointer). In the future it
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// could also be set for other types: channels, maps, functions,
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// single-field structs and single-element arrays whose single field
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// is simply a pointer.
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// For a nil interface value both fields in the interface struct are nil.
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// Return the interface method table for a value of type rhs converted
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// to an interface of type lhs.
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func getitab(lhs, rhs *_type, canfail bool) unsafe.Pointer {
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if rhs == nil {
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return nil
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}
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if lhs.kind&kindMask != kindInterface {
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throw("getitab called for non-interface type")
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}
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lhsi := (*interfacetype)(unsafe.Pointer(lhs))
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if len(lhsi.methods) == 0 {
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throw("getitab called for empty interface type")
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}
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if rhs.uncommontype == nil || len(rhs.methods) == 0 {
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if canfail {
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return nil
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}
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panic(&TypeAssertionError{"", *rhs.string, *lhs.string, *lhsi.methods[0].name})
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}
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methods := make([]unsafe.Pointer, len(lhsi.methods)+1)
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methods[0] = unsafe.Pointer(rhs)
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ri := 0
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for li := range lhsi.methods {
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lhsMethod := &lhsi.methods[li]
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var rhsMethod *method
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for {
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if ri >= len(rhs.methods) {
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if canfail {
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return nil
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}
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panic(&TypeAssertionError{"", *rhs.string, *lhs.string, *lhsMethod.name})
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}
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rhsMethod = &rhs.methods[ri]
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if (lhsMethod.name == rhsMethod.name || *lhsMethod.name == *rhsMethod.name) &&
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(lhsMethod.pkgPath == rhsMethod.pkgPath || *lhsMethod.pkgPath == *rhsMethod.pkgPath) {
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break
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}
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ri++
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}
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if !eqtype(lhsMethod.typ, rhsMethod.mtyp) {
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if canfail {
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return nil
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}
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panic(&TypeAssertionError{"", *rhs.string, *lhs.string, *lhsMethod.name})
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}
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methods[li+1] = unsafe.Pointer(rhsMethod.tfn)
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ri++
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}
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return unsafe.Pointer(&methods[0])
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}
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// Return the interface method table for a value of type rhs converted
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// to an interface of type lhs. Panics if the conversion is impossible.
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func requireitab(lhs, rhs *_type) unsafe.Pointer {
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return getitab(lhs, rhs, false)
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}
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// Return the interface method table for a value of type rhs converted
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// to an interface of type lhs. Panics if the conversion is
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// impossible or if the rhs type is nil.
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func assertitab(lhs, rhs *_type) unsafe.Pointer {
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if rhs == nil {
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panic(&TypeAssertionError{"", "", *lhs.string, ""})
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}
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if lhs.kind&kindMask != kindInterface {
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throw("assertitab called for non-interface type")
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}
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lhsi := (*interfacetype)(unsafe.Pointer(lhs))
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if len(lhsi.methods) == 0 {
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return unsafe.Pointer(rhs)
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}
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return getitab(lhs, rhs, false)
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}
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// Check whether an interface type may be converted to a non-interface
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// type, panicing if not.
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func assertI2T(lhs, rhs, inter *_type) {
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if rhs == nil {
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panic(&TypeAssertionError{"", "", *lhs.string, ""})
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}
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if !eqtype(lhs, rhs) {
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panic(&TypeAssertionError{*inter.string, *rhs.string, *lhs.string, ""})
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}
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}
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// Compare two type descriptors for equality.
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func ifacetypeeq(a, b *_type) bool {
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return eqtype(a, b)
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}
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// Return the type descriptor of an empty interface.
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// FIXME: This should be inlined by the compiler.
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func efacetype(e eface) *_type {
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return e._type
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}
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// Return the type descriptor of a non-empty interface.
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// FIXME: This should be inlined by the compiler.
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func ifacetype(i iface) *_type {
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if i.tab == nil {
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return nil
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}
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return *(**_type)(i.tab)
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}
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// Convert an empty interface to an empty interface, for a comma-ok
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// type assertion.
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func ifaceE2E2(e eface) (eface, bool) {
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return e, e._type != nil
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}
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// Convert a non-empty interface to an empty interface, for a comma-ok
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// type assertion.
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func ifaceI2E2(i iface) (eface, bool) {
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if i.tab == nil {
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return eface{nil, nil}, false
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} else {
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return eface{*(**_type)(i.tab), i.data}, true
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}
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}
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// Convert an empty interface to a non-empty interface, for a comma-ok
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// type assertion.
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func ifaceE2I2(inter *_type, e eface) (iface, bool) {
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if e._type == nil {
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return iface{nil, nil}, false
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} else {
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itab := getitab(inter, e._type, true)
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if itab == nil {
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return iface{nil, nil}, false
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} else {
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return iface{itab, e.data}, true
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}
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}
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}
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// Convert a non-empty interface to a non-empty interface, for a
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// comma-ok type assertion.
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func ifaceI2I2(inter *_type, i iface) (iface, bool) {
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if i.tab == nil {
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return iface{nil, nil}, false
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} else {
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itab := getitab(inter, *(**_type)(i.tab), true)
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if itab == nil {
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return iface{nil, nil}, false
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} else {
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return iface{itab, i.data}, true
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}
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}
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}
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// Convert an empty interface to a pointer non-interface type.
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func ifaceE2T2P(t *_type, e eface) (unsafe.Pointer, bool) {
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if !eqtype(t, e._type) {
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return nil, false
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} else {
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return e.data, true
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}
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}
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// Convert a non-empty interface to a pointer non-interface type.
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func ifaceI2T2P(t *_type, i iface) (unsafe.Pointer, bool) {
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if i.tab == nil || !eqtype(t, *(**_type)(i.tab)) {
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return nil, false
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} else {
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return i.data, true
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}
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}
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// Convert an empty interface to a non-pointer non-interface type.
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func ifaceE2T2(t *_type, e eface, ret unsafe.Pointer) bool {
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if !eqtype(t, e._type) {
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typedmemclr(t, ret)
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return false
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} else {
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typedmemmove(t, ret, e.data)
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return true
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}
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}
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// Convert a non-empty interface to a non-pointer non-interface type.
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func ifaceI2T2(t *_type, i iface, ret unsafe.Pointer) bool {
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if i.tab == nil || !eqtype(t, *(**_type)(i.tab)) {
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typedmemclr(t, ret)
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return false
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} else {
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typedmemmove(t, ret, i.data)
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return true
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}
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}
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// Return whether we can convert a type to an interface type.
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func ifaceT2Ip(to, from *_type) bool {
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if from == nil {
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return false
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}
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if to.kind&kindMask != kindInterface {
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throw("ifaceT2Ip called with non-interface type")
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}
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toi := (*interfacetype)(unsafe.Pointer(to))
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if from.uncommontype == nil || len(from.methods) == 0 {
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return len(toi.methods) == 0
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}
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ri := 0
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for li := range toi.methods {
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toMethod := &toi.methods[li]
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var fromMethod *method
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for {
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if ri >= len(from.methods) {
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return false
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}
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fromMethod = &from.methods[ri]
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if (toMethod.name == fromMethod.name || *toMethod.name == *fromMethod.name) &&
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(toMethod.pkgPath == fromMethod.pkgPath || *toMethod.pkgPath == *fromMethod.pkgPath) {
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break
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}
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ri++
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}
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if !eqtype(fromMethod.mtyp, toMethod.typ) {
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return false
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}
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ri++
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}
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return true
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}
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//go:linkname reflect_ifaceE2I reflect.ifaceE2I
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func reflect_ifaceE2I(inter *interfacetype, e eface, dst *iface) {
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t := e._type
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if t == nil {
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panic(TypeAssertionError{"", "", *inter.typ.string, ""})
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}
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dst.tab = requireitab((*_type)(unsafe.Pointer(inter)), t)
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dst.data = e.data
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}
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