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[/] [openrisc/] [trunk/] [gnu-dev/] [or1k-gcc/] [gcc/] [go/] [gofrontend/] [runtime.cc] - Blame information for rev 714

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// runtime.cc -- runtime functions called by generated code
 
// Copyright 2011 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 "go-system.h"
 
#include <gmp.h>
 
#include "gogo.h"
#include "types.h"
#include "expressions.h"
#include "runtime.h"
 
// The frontend generates calls to various runtime functions.  They
// are implemented in libgo/runtime.  This is how the runtime
// functions are represented in the frontend.  Note that there is
// currently nothing which ensures that the compiler's understanding
// of the runtime function matches the actual implementation in
// libgo/runtime.
 
// Parameter and result types used by runtime functions.
 
enum Runtime_function_type
{
  // General indicator that value is not used.
  RFT_VOID,
  // Go type bool, C type _Bool.
  RFT_BOOL,
  // Go type *bool, C type _Bool*.
  RFT_BOOLPTR,
  // Go type int, C type int.
  RFT_INT,
  // Go type int64, C type int64_t.
  RFT_INT64,
  // Go type uint64, C type uint64_t.
  RFT_UINT64,
  // Go type uintptr, C type uintptr_t.
  RFT_UINTPTR,
  // Go type rune, C type int32_t.
  RFT_RUNE,
  // Go type float64, C type double.
  RFT_FLOAT64,
  // Go type complex128, C type __complex double.
  RFT_COMPLEX128,
  // Go type string, C type struct __go_string.
  RFT_STRING,
  // Go type unsafe.Pointer, C type "void *".
  RFT_POINTER,
  // Go type []any, C type struct __go_open_array.
  RFT_SLICE,
  // Go type map[any]any, C type struct __go_map *.
  RFT_MAP,
  // Pointer to map iteration type.
  RFT_MAPITER,
  // Go type chan any, C type struct __go_channel *.
  RFT_CHAN,
  // Go type non-empty interface, C type struct __go_interface.
  RFT_IFACE,
  // Go type interface{}, C type struct __go_empty_interface.
  RFT_EFACE,
  // Go type func(unsafe.Pointer), C type void (*) (void *).
  RFT_FUNC_PTR,
  // Pointer to Go type descriptor.
  RFT_TYPE,
  // Pointer to map descriptor.
  RFT_MAPDESCRIPTOR,
 
  NUMBER_OF_RUNTIME_FUNCTION_TYPES
};
 
// The Type structures for the runtime function types.
 
static Type* runtime_function_types[NUMBER_OF_RUNTIME_FUNCTION_TYPES];
 
// Get the Type for a Runtime_function_type code.
 
static Type*
runtime_function_type(Runtime_function_type bft)
{
  go_assert(bft < NUMBER_OF_RUNTIME_FUNCTION_TYPES);
  if (runtime_function_types[bft] == NULL)
    {
      const Location bloc = Linemap::predeclared_location();
      Type* t;
      switch (bft)
        {
        default:
        case RFT_VOID:
          go_unreachable();
 
        case RFT_BOOL:
          t = Type::lookup_bool_type();
          break;
 
        case RFT_BOOLPTR:
          t = Type::make_pointer_type(Type::lookup_bool_type());
          break;
 
        case RFT_INT:
          t = Type::lookup_integer_type("int");
          break;
 
        case RFT_INT64:
          t = Type::lookup_integer_type("int64");
          break;
 
        case RFT_UINT64:
          t = Type::lookup_integer_type("uint64");
          break;
 
        case RFT_RUNE:
          t = Type::lookup_integer_type("int32");
          break;
 
        case RFT_UINTPTR:
          t = Type::lookup_integer_type("uintptr");
          break;
 
        case RFT_FLOAT64:
          t = Type::lookup_float_type("float64");
          break;
 
        case RFT_COMPLEX128:
          t = Type::lookup_complex_type("complex128");
          break;
 
        case RFT_STRING:
          t = Type::lookup_string_type();
          break;
 
        case RFT_POINTER:
          t = Type::make_pointer_type(Type::make_void_type());
          break;
 
        case RFT_SLICE:
          t = Type::make_array_type(Type::make_void_type(), NULL);
          break;
 
        case RFT_MAP:
          t = Type::make_map_type(Type::make_void_type(),
                                  Type::make_void_type(),
                                  bloc);
          break;
 
        case RFT_MAPITER:
          t = Type::make_pointer_type(Runtime::map_iteration_type());
          break;
 
        case RFT_CHAN:
          t = Type::make_channel_type(true, true, Type::make_void_type());
          break;
 
        case RFT_IFACE:
          {
            Typed_identifier_list* methods = new Typed_identifier_list();
            Type* mtype = Type::make_function_type(NULL, NULL, NULL, bloc);
            methods->push_back(Typed_identifier("x", mtype, bloc));
            Interface_type* it = Type::make_interface_type(methods, bloc);
            it->finalize_methods();
            t = it;
          }
          break;
 
        case RFT_EFACE:
          t = Type::make_empty_interface_type(bloc);
          break;
 
        case RFT_FUNC_PTR:
          {
            Typed_identifier_list* param_types = new Typed_identifier_list();
            Type* ptrtype = runtime_function_type(RFT_POINTER);
            param_types->push_back(Typed_identifier("", ptrtype, bloc));
            t = Type::make_function_type(NULL, param_types, NULL, bloc);
          }
          break;
 
        case RFT_TYPE:
          t = Type::make_type_descriptor_ptr_type();
          break;
 
        case RFT_MAPDESCRIPTOR:
          t = Type::make_pointer_type(Map_type::make_map_descriptor_type());
          break;
        }
 
      runtime_function_types[bft] = t;
    }
 
  return runtime_function_types[bft];
}
 
// Convert an expression to the type to pass to a runtime function.
 
static Expression*
convert_to_runtime_function_type(Runtime_function_type bft, Expression* e,
                                 Location loc)
{
  switch (bft)
    {
    default:
    case RFT_VOID:
      go_unreachable();
 
    case RFT_BOOL:
    case RFT_BOOLPTR:
    case RFT_INT:
    case RFT_INT64:
    case RFT_UINT64:
    case RFT_UINTPTR:
    case RFT_RUNE:
    case RFT_FLOAT64:
    case RFT_COMPLEX128:
    case RFT_STRING:
    case RFT_POINTER:
    case RFT_MAPITER:
    case RFT_FUNC_PTR:
      {
        Type* t = runtime_function_type(bft);
        if (!Type::are_identical(t, e->type(), true, NULL))
          e = Expression::make_cast(t, e, loc);
        return e;
      }
 
    case RFT_SLICE:
    case RFT_MAP:
    case RFT_CHAN:
    case RFT_IFACE:
    case RFT_EFACE:
      return Expression::make_unsafe_cast(runtime_function_type(bft), e, loc);
 
    case RFT_TYPE:
      go_assert(e->type() == Type::make_type_descriptor_ptr_type());
      return e;
 
    case RFT_MAPDESCRIPTOR:
      go_assert(e->type()->points_to()
                == Map_type::make_map_descriptor_type());
      return e;
    }
}
 
// Convert all the types used for runtime functions to the backend
// representation.
 
void
Runtime::convert_types(Gogo* gogo)
{
  for (int i = 0; i < static_cast<int>(NUMBER_OF_RUNTIME_FUNCTION_TYPES); ++i)
    {
      Type* t = runtime_function_types[i];
      if (t != NULL && t->named_type() != NULL)
        {
          bool r = t->verify();
          go_assert(r);
          t->named_type()->convert(gogo);
        }
    }
}
 
// The type used to define a runtime function.
 
struct Runtime_function
{
  // Function name.
  const char* name;
  // Parameter types.  Never more than 6, as it happens.  RFT_VOID if
  // not used.
  Runtime_function_type parameter_types[6];
  // Result types.  Never more than 2, as it happens.  RFT_VOID if not
  // used.
  Runtime_function_type result_types[2];
};
 
static const Runtime_function runtime_functions[] =
{
 
#define DEF_GO_RUNTIME(CODE, NAME, PARAMS, RESULTS) { NAME, PARAMS, RESULTS } ,
 
#include "runtime.def"
 
#undef DEF_GO_RUNTIME
 
};
 
static Named_object*
runtime_function_declarations[Runtime::NUMBER_OF_FUNCTIONS];
 
// Get the declaration of a runtime function.
 
Named_object*
Runtime::runtime_declaration(Function code)
{
  go_assert(code < Runtime::NUMBER_OF_FUNCTIONS);
  if (runtime_function_declarations[code] == NULL)
    {
      const Runtime_function* pb = &runtime_functions[code];
 
      Location bloc = Linemap::predeclared_location();
 
      Typed_identifier_list* param_types = NULL;
      if (pb->parameter_types[0] != RFT_VOID)
        {
          param_types = new Typed_identifier_list();
          for (unsigned int i = 0;
               i < (sizeof(pb->parameter_types)
                    / sizeof (pb->parameter_types[0]));
               i++)
            {
              if (pb->parameter_types[i] == RFT_VOID)
                break;
              Type* t = runtime_function_type(pb->parameter_types[i]);
              param_types->push_back(Typed_identifier("", t, bloc));
            }
        }
 
      Typed_identifier_list* result_types = NULL;
      if (pb->result_types[0] != RFT_VOID)
        {
          result_types = new Typed_identifier_list();
          for (unsigned int i = 0;
               i < sizeof(pb->result_types) / sizeof(pb->result_types[0]);
               i++)
            {
              if (pb->result_types[i] == RFT_VOID)
                break;
              Type* t = runtime_function_type(pb->result_types[i]);
              result_types->push_back(Typed_identifier("", t, bloc));
            }
        }
 
      Function_type* fntype = Type::make_function_type(NULL, param_types,
                                                       result_types, bloc);
      const char* n = pb->name;
      const char* n1 = strchr(n, '.');
      if (n1 != NULL)
        n = n1 + 1;
      Named_object* no = Named_object::make_function_declaration(n, NULL,
                                                                 fntype, bloc);
      no->func_declaration_value()->set_asm_name(pb->name);
 
      runtime_function_declarations[code] = no;
    }
 
  return runtime_function_declarations[code];
}
 
// Make a call to a runtime function.
 
Call_expression*
Runtime::make_call(Runtime::Function code, Location loc,
                   int param_count, ...)
{
  go_assert(code < Runtime::NUMBER_OF_FUNCTIONS);
 
  const Runtime_function* pb = &runtime_functions[code];
 
  go_assert(static_cast<size_t>(param_count)
             <= sizeof(pb->parameter_types) / sizeof(pb->parameter_types[0]));
 
  Named_object* no = runtime_declaration(code);
  Expression* func = Expression::make_func_reference(no, NULL, loc);
 
  Expression_list* args = new Expression_list();
  args->reserve(param_count);
 
  va_list ap;
  va_start(ap, param_count);
  for (int i = 0; i < param_count; ++i)
    {
      Expression* e = va_arg(ap, Expression*);
      Runtime_function_type rft = pb->parameter_types[i];
      args->push_back(convert_to_runtime_function_type(rft, e, loc));
    }
  va_end(ap);
 
  return Expression::make_call(func, args, false, loc);
}
 
// The type we use for a map iteration.  This is really a struct which
// is four pointers long.  This must match the runtime struct
// __go_hash_iter.
 
Type*
Runtime::map_iteration_type()
{
  const unsigned long map_iteration_size = 4;
 
  mpz_t ival;
  mpz_init_set_ui(ival, map_iteration_size);
  Expression* iexpr = Expression::make_integer(&ival, NULL,
                                               Linemap::predeclared_location());
  mpz_clear(ival);
 
  return Type::make_array_type(runtime_function_type(RFT_POINTER), iexpr);
}

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[/] [openrisc/] [trunk/] [gnu-dev/] [or1k-gcc/] [gcc/] [go/] [gofrontend/] [runtime.cc] - Blame information for rev 714

Line No.	Rev	Author	Line
1	714	jeremybenn	`// runtime.cc -- runtime functions called by generated code`
2
3			`// Copyright 2011 The Go Authors. All rights reserved.`
4			`// Use of this source code is governed by a BSD-style`
5			`// license that can be found in the LICENSE file.`
6
7			`#include "go-system.h"`
8
9			`#include <gmp.h>`
10
11			`#include "gogo.h"`
12			`#include "types.h"`
13			`#include "expressions.h"`
14			`#include "runtime.h"`
15
16			`// The frontend generates calls to various runtime functions. They`
17			`// are implemented in libgo/runtime. This is how the runtime`
18			`// functions are represented in the frontend. Note that there is`
19			`// currently nothing which ensures that the compiler's understanding`
20			`// of the runtime function matches the actual implementation in`
21			`// libgo/runtime.`
22
23			`// Parameter and result types used by runtime functions.`
24
25			`enum Runtime_function_type`
26			`{`
27			`// General indicator that value is not used.`
28			`RFT_VOID,`
29			`// Go type bool, C type _Bool.`
30			`RFT_BOOL,`
31			`// Go type bool, C type _Bool.`
32			`RFT_BOOLPTR,`
33			`// Go type int, C type int.`
34			`RFT_INT,`
35			`// Go type int64, C type int64_t.`
36			`RFT_INT64,`
37			`// Go type uint64, C type uint64_t.`
38			`RFT_UINT64,`
39			`// Go type uintptr, C type uintptr_t.`
40			`RFT_UINTPTR,`
41			`// Go type rune, C type int32_t.`
42			`RFT_RUNE,`
43			`// Go type float64, C type double.`
44			`RFT_FLOAT64,`
45			`// Go type complex128, C type __complex double.`
46			`RFT_COMPLEX128,`
47			`// Go type string, C type struct __go_string.`
48			`RFT_STRING,`
49			`// Go type unsafe.Pointer, C type "void *".`
50			`RFT_POINTER,`
51			`// Go type []any, C type struct __go_open_array.`
52			`RFT_SLICE,`
53			`// Go type map[any]any, C type struct __go_map *.`
54			`RFT_MAP,`
55			`// Pointer to map iteration type.`
56			`RFT_MAPITER,`
57			`// Go type chan any, C type struct __go_channel *.`
58			`RFT_CHAN,`
59			`// Go type non-empty interface, C type struct __go_interface.`
60			`RFT_IFACE,`
61			`// Go type interface{}, C type struct __go_empty_interface.`
62			`RFT_EFACE,`
63			`// Go type func(unsafe.Pointer), C type void () (void ).`
64			`RFT_FUNC_PTR,`
65			`// Pointer to Go type descriptor.`
66			`RFT_TYPE,`
67			`// Pointer to map descriptor.`
68			`RFT_MAPDESCRIPTOR,`
69
70			`NUMBER_OF_RUNTIME_FUNCTION_TYPES`
71			`};`
72
73			`// The Type structures for the runtime function types.`
74
75			`static Type* runtime_function_types[NUMBER_OF_RUNTIME_FUNCTION_TYPES];`
76
77			`// Get the Type for a Runtime_function_type code.`
78
79			`static Type*`
80			`runtime_function_type(Runtime_function_type bft)`
81			`{`
82			`go_assert(bft < NUMBER_OF_RUNTIME_FUNCTION_TYPES);`
83			`if (runtime_function_types[bft] == NULL)`
84			`{`
85			`const Location bloc = Linemap::predeclared_location();`
86			`Type* t;`
87			`switch (bft)`
88			`{`
89			`default:`
90			`case RFT_VOID:`
91			`go_unreachable();`
92
93			`case RFT_BOOL:`
94			`t = Type::lookup_bool_type();`
95			`break;`
96
97			`case RFT_BOOLPTR:`
98			`t = Type::make_pointer_type(Type::lookup_bool_type());`
99			`break;`
100
101			`case RFT_INT:`
102			`t = Type::lookup_integer_type("int");`
103			`break;`
104
105			`case RFT_INT64:`
106			`t = Type::lookup_integer_type("int64");`
107			`break;`
108
109			`case RFT_UINT64:`
110			`t = Type::lookup_integer_type("uint64");`
111			`break;`
112
113			`case RFT_RUNE:`
114			`t = Type::lookup_integer_type("int32");`
115			`break;`
116
117			`case RFT_UINTPTR:`
118			`t = Type::lookup_integer_type("uintptr");`
119			`break;`
120
121			`case RFT_FLOAT64:`
122			`t = Type::lookup_float_type("float64");`
123			`break;`
124
125			`case RFT_COMPLEX128:`
126			`t = Type::lookup_complex_type("complex128");`
127			`break;`
128
129			`case RFT_STRING:`
130			`t = Type::lookup_string_type();`
131			`break;`
132
133			`case RFT_POINTER:`
134			`t = Type::make_pointer_type(Type::make_void_type());`
135			`break;`
136
137			`case RFT_SLICE:`
138			`t = Type::make_array_type(Type::make_void_type(), NULL);`
139			`break;`
140
141			`case RFT_MAP:`
142			`t = Type::make_map_type(Type::make_void_type(),`
143			`Type::make_void_type(),`
144			`bloc);`
145			`break;`
146
147			`case RFT_MAPITER:`
148			`t = Type::make_pointer_type(Runtime::map_iteration_type());`
149			`break;`
150
151			`case RFT_CHAN:`
152			`t = Type::make_channel_type(true, true, Type::make_void_type());`
153			`break;`
154
155			`case RFT_IFACE:`
156			`{`
157			`Typed_identifier_list* methods = new Typed_identifier_list();`
158			`Type* mtype = Type::make_function_type(NULL, NULL, NULL, bloc);`
159			`methods->push_back(Typed_identifier("x", mtype, bloc));`
160			`Interface_type* it = Type::make_interface_type(methods, bloc);`
161			`it->finalize_methods();`
162			`t = it;`
163			`}`
164			`break;`
165
166			`case RFT_EFACE:`
167			`t = Type::make_empty_interface_type(bloc);`
168			`break;`
169
170			`case RFT_FUNC_PTR:`
171			`{`
172			`Typed_identifier_list* param_types = new Typed_identifier_list();`
173			`Type* ptrtype = runtime_function_type(RFT_POINTER);`
174			`param_types->push_back(Typed_identifier("", ptrtype, bloc));`
175			`t = Type::make_function_type(NULL, param_types, NULL, bloc);`
176			`}`
177			`break;`
178
179			`case RFT_TYPE:`
180			`t = Type::make_type_descriptor_ptr_type();`
181			`break;`
182
183			`case RFT_MAPDESCRIPTOR:`
184			`t = Type::make_pointer_type(Map_type::make_map_descriptor_type());`
185			`break;`
186			`}`
187
188			`runtime_function_types[bft] = t;`
189			`}`
190
191			`return runtime_function_types[bft];`
192			`}`
193
194			`// Convert an expression to the type to pass to a runtime function.`
195
196			`static Expression*`
197			`convert_to_runtime_function_type(Runtime_function_type bft, Expression* e,`
198			`Location loc)`
199			`{`
200			`switch (bft)`
201			`{`
202			`default:`
203			`case RFT_VOID:`
204			`go_unreachable();`
205
206			`case RFT_BOOL:`
207			`case RFT_BOOLPTR:`
208			`case RFT_INT:`
209			`case RFT_INT64:`
210			`case RFT_UINT64:`
211			`case RFT_UINTPTR:`
212			`case RFT_RUNE:`
213			`case RFT_FLOAT64:`
214			`case RFT_COMPLEX128:`
215			`case RFT_STRING:`
216			`case RFT_POINTER:`
217			`case RFT_MAPITER:`
218			`case RFT_FUNC_PTR:`
219			`{`
220			`Type* t = runtime_function_type(bft);`
221			`if (!Type::are_identical(t, e->type(), true, NULL))`
222			`e = Expression::make_cast(t, e, loc);`
223			`return e;`
224			`}`
225
226			`case RFT_SLICE:`
227			`case RFT_MAP:`
228			`case RFT_CHAN:`
229			`case RFT_IFACE:`
230			`case RFT_EFACE:`
231			`return Expression::make_unsafe_cast(runtime_function_type(bft), e, loc);`
232
233			`case RFT_TYPE:`
234			`go_assert(e->type() == Type::make_type_descriptor_ptr_type());`
235			`return e;`
236
237			`case RFT_MAPDESCRIPTOR:`
238			`go_assert(e->type()->points_to()`
239			`== Map_type::make_map_descriptor_type());`
240			`return e;`
241			`}`
242			`}`
243
244			`// Convert all the types used for runtime functions to the backend`
245			`// representation.`
246
247			`void`
248			`Runtime::convert_types(Gogo* gogo)`
249			`{`
250			`for (int i = 0; i < static_cast<int>(NUMBER_OF_RUNTIME_FUNCTION_TYPES); ++i)`
251			`{`
252			`Type* t = runtime_function_types[i];`
253			`if (t != NULL && t->named_type() != NULL)`
254			`{`
255			`bool r = t->verify();`
256			`go_assert(r);`
257			`t->named_type()->convert(gogo);`
258			`}`
259			`}`
260			`}`
261
262			`// The type used to define a runtime function.`
263
264			`struct Runtime_function`
265			`{`
266			`// Function name.`
267			`const char* name;`
268			`// Parameter types. Never more than 6, as it happens. RFT_VOID if`
269			`// not used.`
270			`Runtime_function_type parameter_types[6];`
271			`// Result types. Never more than 2, as it happens. RFT_VOID if not`
272			`// used.`
273			`Runtime_function_type result_types[2];`
274			`};`
275
276			`static const Runtime_function runtime_functions[] =`
277			`{`
278
279			`#define DEF_GO_RUNTIME(CODE, NAME, PARAMS, RESULTS) { NAME, PARAMS, RESULTS } ,`
280
281			`#include "runtime.def"`
282
283			`#undef DEF_GO_RUNTIME`
284
285			`};`
286
287			`static Named_object*`
288			`runtime_function_declarations[Runtime::NUMBER_OF_FUNCTIONS];`
289
290			`// Get the declaration of a runtime function.`
291
292			`Named_object*`
293			`Runtime::runtime_declaration(Function code)`
294			`{`
295			`go_assert(code < Runtime::NUMBER_OF_FUNCTIONS);`
296			`if (runtime_function_declarations[code] == NULL)`
297			`{`
298			`const Runtime_function* pb = &runtime_functions[code];`
299
300			`Location bloc = Linemap::predeclared_location();`
301
302			`Typed_identifier_list* param_types = NULL;`
303			`if (pb->parameter_types[0] != RFT_VOID)`
304			`{`
305			`param_types = new Typed_identifier_list();`
306			`for (unsigned int i = 0;`
307			`i < (sizeof(pb->parameter_types)`
308			`/ sizeof (pb->parameter_types[0]));`
309			`i++)`
310			`{`
311			`if (pb->parameter_types[i] == RFT_VOID)`
312			`break;`
313			`Type* t = runtime_function_type(pb->parameter_types[i]);`
314			`param_types->push_back(Typed_identifier("", t, bloc));`
315			`}`
316			`}`
317
318			`Typed_identifier_list* result_types = NULL;`
319			`if (pb->result_types[0] != RFT_VOID)`
320			`{`
321			`result_types = new Typed_identifier_list();`
322			`for (unsigned int i = 0;`
323			`i < sizeof(pb->result_types) / sizeof(pb->result_types[0]);`
324			`i++)`
325			`{`
326			`if (pb->result_types[i] == RFT_VOID)`
327			`break;`
328			`Type* t = runtime_function_type(pb->result_types[i]);`
329			`result_types->push_back(Typed_identifier("", t, bloc));`
330			`}`
331			`}`
332
333			`Function_type* fntype = Type::make_function_type(NULL, param_types,`
334			`result_types, bloc);`
335			`const char* n = pb->name;`
336			`const char* n1 = strchr(n, '.');`
337			`if (n1 != NULL)`
338			`n = n1 + 1;`
339			`Named_object* no = Named_object::make_function_declaration(n, NULL,`
340			`fntype, bloc);`
341			`no->func_declaration_value()->set_asm_name(pb->name);`
342
343			`runtime_function_declarations[code] = no;`
344			`}`
345
346			`return runtime_function_declarations[code];`
347			`}`
348
349			`// Make a call to a runtime function.`
350
351			`Call_expression*`
352			`Runtime::make_call(Runtime::Function code, Location loc,`
353			`int param_count, ...)`
354			`{`
355			`go_assert(code < Runtime::NUMBER_OF_FUNCTIONS);`
356
357			`const Runtime_function* pb = &runtime_functions[code];`
358
359			`go_assert(static_cast<size_t>(param_count)`
360			`<= sizeof(pb->parameter_types) / sizeof(pb->parameter_types[0]));`
361
362			`Named_object* no = runtime_declaration(code);`
363			`Expression* func = Expression::make_func_reference(no, NULL, loc);`
364
365			`Expression_list* args = new Expression_list();`
366			`args->reserve(param_count);`
367
368			`va_list ap;`
369			`va_start(ap, param_count);`
370			`for (int i = 0; i < param_count; ++i)`
371			`{`
372			`Expression* e = va_arg(ap, Expression*);`
373			`Runtime_function_type rft = pb->parameter_types[i];`
374			`args->push_back(convert_to_runtime_function_type(rft, e, loc));`
375			`}`
376			`va_end(ap);`
377
378			`return Expression::make_call(func, args, false, loc);`
379			`}`
380
381			`// The type we use for a map iteration. This is really a struct which`
382			`// is four pointers long. This must match the runtime struct`
383			`// __go_hash_iter.`
384
385			`Type*`
386			`Runtime::map_iteration_type()`
387			`{`
388			`const unsigned long map_iteration_size = 4;`
389
390			`mpz_t ival;`
391			`mpz_init_set_ui(ival, map_iteration_size);`
392			`Expression* iexpr = Expression::make_integer(&ival, NULL,`
393			`Linemap::predeclared_location());`
394			`mpz_clear(ival);`
395
396			`return Type::make_array_type(runtime_function_type(RFT_POINTER), iexpr);`
397			`}`