third_party/gofrontend/libgo/runtime/go-convert-interface.c - llvm-project/llgo - Git at Google

 /* go-convert-interface.c -- convert interfaces for Go.

    Copyright 2009 The Go Authors. All rights reserved.
    Use of this source code is governed by a BSD-style
    license that can be found in the LICENSE file.  */

 #include "runtime.h"
 #include "go-alloc.h"
 #include "go-assert.h"
 #include "go-panic.h"
 #include "go-string.h"
 #include "go-type.h"
 #include "interface.h"

 /* This is called when converting one interface type into another
    interface type.  LHS_DESCRIPTOR is the type descriptor of the
    resulting interface.  RHS_DESCRIPTOR is the type descriptor of the
    object being converted.  This builds and returns a new interface
    method table.  If any method in the LHS_DESCRIPTOR interface is not
    implemented by the object, the conversion fails.  If the conversion
    fails, then if MAY_FAIL is true this returns NULL; otherwise, it
    panics.  */

 void *
 __go_convert_interface_2 (const struct __go_type_descriptor *lhs_descriptor,
 			  const struct __go_type_descriptor *rhs_descriptor,
 			  _Bool may_fail)
 {
   const struct __go_interface_type *lhs_interface;
   int lhs_method_count;
   const struct __go_interface_method* lhs_methods;
   const void **methods;
   const struct __go_uncommon_type *rhs_uncommon;
   int rhs_method_count;
   const struct __go_method *p_rhs_method;
   int i;

   if (rhs_descriptor == NULL)
     {
       /* A nil value always converts to nil.  */
       return NULL;
     }

   __go_assert ((lhs_descriptor->__code & GO_CODE_MASK) == GO_INTERFACE);
   lhs_interface = (const struct __go_interface_type *) lhs_descriptor;
   lhs_method_count = lhs_interface->__methods.__count;
   lhs_methods = ((const struct __go_interface_method *)
 		 lhs_interface->__methods.__values);

   /* This should not be called for an empty interface.  */
   __go_assert (lhs_method_count > 0);

   rhs_uncommon = rhs_descriptor->__uncommon;
   if (rhs_uncommon == NULL || rhs_uncommon->__methods.__count == 0)
     {
       struct __go_empty_interface panic_arg;

       if (may_fail)
 	return NULL;

       runtime_newTypeAssertionError (NULL, rhs_descriptor->__reflection,
 				     lhs_descriptor->__reflection,
 				     lhs_methods[0].__name,
 				     &panic_arg);
       __go_panic (panic_arg);
     }

   rhs_method_count = rhs_uncommon->__methods.__count;
   p_rhs_method = ((const struct __go_method *)
 		  rhs_uncommon->__methods.__values);

   methods = NULL;

   for (i = 0; i < lhs_method_count; ++i)
     {
       const struct __go_interface_method *p_lhs_method;

       p_lhs_method = &lhs_methods[i];

       while (rhs_method_count > 0
 	     && (!__go_ptr_strings_equal (p_lhs_method->__name,
 					  p_rhs_method->__name)
 		 || !__go_ptr_strings_equal (p_lhs_method->__pkg_path,
 					     p_rhs_method->__pkg_path)))
 	{
 	  ++p_rhs_method;
 	  --rhs_method_count;
 	}

       if (rhs_method_count == 0
 	  || !__go_type_descriptors_equal (p_lhs_method->__type,
 					   p_rhs_method->__mtype))
 	{
 	  struct __go_empty_interface panic_arg;

 	  if (methods != NULL)
 	    __go_free (methods);

 	  if (may_fail)
 	    return NULL;

 	  runtime_newTypeAssertionError (NULL, rhs_descriptor->__reflection,
 					 lhs_descriptor->__reflection,
 					 p_lhs_method->__name, &panic_arg);
 	  __go_panic (panic_arg);
 	}

       if (methods == NULL)
 	{
 	  methods = (const void **) __go_alloc ((lhs_method_count + 1)
 						* sizeof (void *));

 	  /* The first field in the method table is always the type of
 	     the object.  */
 	  methods[0] = rhs_descriptor;
 	}

       methods[i + 1] = p_rhs_method->__function;
     }

   return methods;
 }

 /* This is called by the compiler to convert a value from one
    interface type to another.  */

 void *
 __go_convert_interface (const struct __go_type_descriptor *lhs_descriptor,
 			const struct __go_type_descriptor *rhs_descriptor)
 {
   return __go_convert_interface_2 (lhs_descriptor, rhs_descriptor, 0);
 }
	/* go-convert-interface.c -- convert interfaces for Go.

	Copyright 2009 The Go Authors. All rights reserved.
	Use of this source code is governed by a BSD-style
	license that can be found in the LICENSE file. */

	#include "runtime.h"
	#include "go-alloc.h"
	#include "go-assert.h"
	#include "go-panic.h"
	#include "go-string.h"
	#include "go-type.h"
	#include "interface.h"

	/* This is called when converting one interface type into another
	interface type. LHS_DESCRIPTOR is the type descriptor of the
	resulting interface. RHS_DESCRIPTOR is the type descriptor of the
	object being converted. This builds and returns a new interface
	method table. If any method in the LHS_DESCRIPTOR interface is not
	implemented by the object, the conversion fails. If the conversion
	fails, then if MAY_FAIL is true this returns NULL; otherwise, it
	panics. */

	void *
	__go_convert_interface_2 (const struct __go_type_descriptor *lhs_descriptor,
	const struct __go_type_descriptor *rhs_descriptor,
	_Bool may_fail)
	{
	const struct __go_interface_type *lhs_interface;
	int lhs_method_count;
	const struct __go_interface_method* lhs_methods;
	const void **methods;
	const struct __go_uncommon_type *rhs_uncommon;
	int rhs_method_count;
	const struct __go_method *p_rhs_method;
	int i;

	if (rhs_descriptor == NULL)
	{
	/* A nil value always converts to nil. */
	return NULL;
	}

	__go_assert ((lhs_descriptor->__code & GO_CODE_MASK) == GO_INTERFACE);
	lhs_interface = (const struct __go_interface_type *) lhs_descriptor;
	lhs_method_count = lhs_interface->__methods.__count;
	lhs_methods = ((const struct __go_interface_method *)
	lhs_interface->__methods.__values);

	/* This should not be called for an empty interface. */
	__go_assert (lhs_method_count > 0);

	rhs_uncommon = rhs_descriptor->__uncommon;
	if (rhs_uncommon == NULL \|\| rhs_uncommon->__methods.__count == 0)
	{
	struct __go_empty_interface panic_arg;

	if (may_fail)
	return NULL;

	runtime_newTypeAssertionError (NULL, rhs_descriptor->__reflection,
	lhs_descriptor->__reflection,
	lhs_methods[0].__name,
	&panic_arg);
	__go_panic (panic_arg);
	}

	rhs_method_count = rhs_uncommon->__methods.__count;
	p_rhs_method = ((const struct __go_method *)
	rhs_uncommon->__methods.__values);

	methods = NULL;

	for (i = 0; i < lhs_method_count; ++i)
	{
	const struct __go_interface_method *p_lhs_method;

	p_lhs_method = &lhs_methods[i];

	while (rhs_method_count > 0
	&& (!__go_ptr_strings_equal (p_lhs_method->__name,
	p_rhs_method->__name)
	\|\| !__go_ptr_strings_equal (p_lhs_method->__pkg_path,
	p_rhs_method->__pkg_path)))
	{
	++p_rhs_method;
	--rhs_method_count;
	}

	if (rhs_method_count == 0
	\|\| !__go_type_descriptors_equal (p_lhs_method->__type,
	p_rhs_method->__mtype))
	{
	struct __go_empty_interface panic_arg;

	if (methods != NULL)
	__go_free (methods);

	if (may_fail)
	return NULL;

	runtime_newTypeAssertionError (NULL, rhs_descriptor->__reflection,
	lhs_descriptor->__reflection,
	p_lhs_method->__name, &panic_arg);
	__go_panic (panic_arg);
	}

	if (methods == NULL)
	{
	methods = (const void **) __go_alloc ((lhs_method_count + 1)
	* sizeof (void *));

	/* The first field in the method table is always the type of
	the object. */
	methods[0] = rhs_descriptor;
	}

	methods[i + 1] = p_rhs_method->__function;
	}

	return methods;
	}

	/* This is called by the compiler to convert a value from one
	interface type to another. */

	void *
	__go_convert_interface (const struct __go_type_descriptor *lhs_descriptor,
	const struct __go_type_descriptor *rhs_descriptor)
	{
	return __go_convert_interface_2 (lhs_descriptor, rhs_descriptor, 0);
	}