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/* d-frontend.cc -- D frontend interface to the gcc back-end.
Copyright (C) 2013-2018 Free Software Foundation, Inc.
GCC is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3, or (at your option)
any later version.
GCC is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with GCC; see the file COPYING3. If not see
<http://www.gnu.org/licenses/>. */
#include "config.h"
#include "system.h"
#include "coretypes.h"
#include "dmd/aggregate.h"
#include "dmd/compiler.h"
#include "dmd/declaration.h"
#include "dmd/errors.h"
#include "dmd/expression.h"
#include "dmd/identifier.h"
#include "dmd/module.h"
#include "dmd/mtype.h"
#include "dmd/scope.h"
#include "dmd/statement.h"
#include "dmd/target.h"
#include "tree.h"
#include "options.h"
#include "fold-const.h"
#include "diagnostic.h"
#include "stor-layout.h"
#include "d-tree.h"
/* Implements the Global interface defined by the frontend.
Used for managing the state of the current compilation. */
Global global;
void
Global::_init (void)
{
this->mars_ext = "d";
this->hdr_ext = "di";
this->doc_ext = "html";
this->ddoc_ext = "ddoc";
this->json_ext = "json";
this->obj_ext = "o";
this->run_noext = true;
this->version = "v"
#include "verstr.h"
;
this->stdmsg = stderr;
this->errorLimit = flag_max_errors;
}
/* Start gagging. Return the current number of gagged errors. */
unsigned
Global::startGagging (void)
{
this->gag++;
return this->gaggedErrors;
}
/* End gagging, restoring the old gagged state. Return true if errors
occured while gagged. */
bool
Global::endGagging (unsigned oldGagged)
{
bool anyErrs = (this->gaggedErrors != oldGagged);
this->gag--;
/* Restore the original state of gagged errors; set total errors
to be original errors + new ungagged errors. */
this->errors -= (this->gaggedErrors - oldGagged);
this->gaggedErrors = oldGagged;
return anyErrs;
}
/* Increment the error count to record that an error has occured in the
current context. An error message may or may not have been printed. */
void
Global::increaseErrorCount (void)
{
if (gag)
this->gaggedErrors++;
this->errors++;
}
/* Implements the Loc interface defined by the frontend.
Used for keeping track of current file/line position in code. */
Loc::Loc (const char *filename, unsigned linnum, unsigned charnum)
{
this->linnum = linnum;
this->charnum = charnum;
this->filename = filename;
}
const char *
Loc::toChars (void) const
{
OutBuffer buf;
if (this->filename)
buf.printf ("%s", this->filename);
if (this->linnum)
{
buf.printf (":%u", this->linnum);
if (this->charnum)
buf.printf (":%u", this->charnum);
}
return buf.extractString ();
}
bool
Loc::equals (const Loc& loc)
{
if (this->linnum != loc.linnum || this->charnum != loc.charnum)
return false;
if (!FileName::equals (this->filename, loc.filename))
return false;
return true;
}
/* Implements the Port interface defined by the frontend.
A mini library for doing compiler/system specific things. */
/* Compare the first N bytes of S1 and S2 without regard to the case. */
int
Port::memicmp (const char *s1, const char *s2, size_t n)
{
int result = 0;
for (size_t i = 0; i < n; i++)
{
char c1 = s1[i];
char c2 = s2[i];
result = c1 - c2;
if (result)
{
result = TOUPPER (c1) - TOUPPER (c2);
if (result)
break;
}
}
return result;
}
/* Convert all characters in S to uppercase. */
char *
Port::strupr (char *s)
{
char *t = s;
while (*s)
{
*s = TOUPPER (*s);
s++;
}
return t;
}
/* Return true if the real_t value from string BUFFER overflows
as a result of rounding down to float mode. */
bool
Port::isFloat32LiteralOutOfRange (const char *buffer)
{
real_t r;
real_from_string3 (&r.rv (), buffer, TYPE_MODE (float_type_node));
return r == Target::RealProperties::infinity;
}
/* Return true if the real_t value from string BUFFER overflows
as a result of rounding down to double mode. */
bool
Port::isFloat64LiteralOutOfRange (const char *buffer)
{
real_t r;
real_from_string3 (&r.rv (), buffer, TYPE_MODE (double_type_node));
return r == Target::RealProperties::infinity;
}
/* Fetch a little-endian 16-bit value from BUFFER. */
unsigned
Port::readwordLE (void *buffer)
{
unsigned char *p = (unsigned char*) buffer;
return ((unsigned) p[1] << 8) | (unsigned) p[0];
}
/* Fetch a big-endian 16-bit value from BUFFER. */
unsigned
Port::readwordBE (void *buffer)
{
unsigned char *p = (unsigned char*) buffer;
return ((unsigned) p[0] << 8) | (unsigned) p[1];
}
/* Fetch a little-endian 32-bit value from BUFFER. */
unsigned
Port::readlongLE (void *buffer)
{
unsigned char *p = (unsigned char*) buffer;
return (((unsigned) p[3] << 24)
| ((unsigned) p[2] << 16)
| ((unsigned) p[1] << 8)
| (unsigned) p[0]);
}
/* Fetch a big-endian 32-bit value from BUFFER. */
unsigned
Port::readlongBE (void *buffer)
{
unsigned char *p = (unsigned char*) buffer;
return (((unsigned) p[0] << 24)
| ((unsigned) p[1] << 16)
| ((unsigned) p[2] << 8)
| (unsigned) p[3]);
}
/* Write an SZ-byte sized VALUE to BUFFER, ignoring endian-ness. */
void
Port::valcpy (void *buffer, uint64_t value, size_t sz)
{
switch (sz)
{
case 1:
*(uint8_t *) buffer = (uint8_t) value;
break;
case 2:
*(uint16_t *) buffer = (uint16_t) value;
break;
case 4:
*(uint32_t *) buffer = (uint32_t) value;
break;
case 8:
*(uint64_t *) buffer = (uint64_t) value;
break;
default:
gcc_unreachable ();
}
}
/* Implements the CTFloat interface defined by the frontend.
Compile-time floating-pointer helper functions. */
/* Return the absolute value of R. */
real_t
CTFloat::fabs (real_t r)
{
real_t x;
real_arithmetic (&x.rv (), ABS_EXPR, &r.rv (), NULL);
return x.normalize ();
}
/* Return the value of R * 2 ^^ EXP. */
real_t
CTFloat::ldexp (real_t r, int exp)
{
real_t x;
real_ldexp (&x.rv (), &r.rv (), exp);
return x.normalize ();
}
/* Return true if longdouble value X is identical to Y. */
bool
CTFloat::isIdentical (real_t x, real_t y)
{
real_value rx = x.rv ();
real_value ry = y.rv ();
return (REAL_VALUE_ISNAN (rx) && REAL_VALUE_ISNAN (ry))
|| real_identical (&rx, &ry);
}
/* Return true if real_t value R is NaN. */
bool
CTFloat::isNaN (real_t r)
{
return REAL_VALUE_ISNAN (r.rv ());
}
/* Same as isNaN, but also check if is signalling. */
bool
CTFloat::isSNaN (real_t r)
{
return REAL_VALUE_ISSIGNALING_NAN (r.rv ());
}
/* Return true if real_t value is +Inf. */
bool
CTFloat::isInfinity (real_t r)
{
return REAL_VALUE_ISINF (r.rv ());
}
/* Return a real_t value from string BUFFER rounded to long double mode. */
real_t
CTFloat::parse (const char *buffer, bool *overflow)
{
real_t r;
real_from_string3 (&r.rv (), buffer, TYPE_MODE (long_double_type_node));
/* Front-end checks overflow to see if the value is representable. */
if (overflow && r == Target::RealProperties::infinity)
*overflow = true;
return r;
}
/* Format the real_t value R to string BUFFER as a decimal or hexadecimal,
converting the result to uppercase if FMT requests it. */
int
CTFloat::sprint (char *buffer, char fmt, real_t r)
{
if (fmt == 'a' || fmt == 'A')
{
/* Converting to a hexadecimal string. */
real_to_hexadecimal (buffer, &r.rv (), 32, 0, 1);
int buflen;
switch (fmt)
{
case 'A':
buflen = strlen (buffer);
for (int i = 0; i < buflen; i++)
buffer[i] = TOUPPER (buffer[i]);
return buflen;
case 'a':
return strlen (buffer);
default:
gcc_unreachable ();
}
}
else
{
/* Note: restricting the precision of significant digits to 18. */
real_to_decimal (buffer, &r.rv (), 32, 18, 1);
return strlen (buffer);
}
}
/* Return a hash value for real_t value R. */
size_t
CTFloat::hash (real_t r)
{
return real_hash (&r.rv ());
}
/* Implements the Compiler interface used by the frontend. */
/* Generate C main() in response to seeing D main(). This used to be in
libdruntime, but contained a reference to _Dmain which didn't work when
druntime was made into a shared library and was linked to a program, such
as a C++ program, that didn't have a _Dmain. */
void
Compiler::genCmain (Scope *sc)
{
static bool initialized = false;
if (initialized)
return;
/* The D code to be generated is provided by __entrypoint.di, try to load it,
but don't fail if unfound. */
unsigned errors = global.startGagging ();
Module *m = Module::load (Loc (), NULL, Identifier::idPool ("__entrypoint"));
if (global.endGagging (errors))
m = NULL;
if (m != NULL)
{
m->importedFrom = m;
m->importAll (NULL);
m->semantic (NULL);
m->semantic2 (NULL);
m->semantic3 (NULL);
d_add_entrypoint_module (m, sc->_module);
}
initialized = true;
}
/* Perform a reinterpret cast of EXPR to type TYPE for use in CTFE.
The front end should have already ensured that EXPR is a constant,
so we just lower the value to GCC and return the converted CST. */
Expression *
Compiler::paintAsType (Expression *expr, Type *type)
{
/* We support up to 512-bit values. */
unsigned char buffer[64];
tree cst;
Type *tb = type->toBasetype ();
if (expr->type->isintegral ())
cst = build_integer_cst (expr->toInteger (), build_ctype (expr->type));
else if (expr->type->isfloating ())
cst = build_float_cst (expr->toReal (), expr->type);
else if (expr->op == TOKarrayliteral)
{
/* Build array as VECTOR_CST, assumes EXPR is constant. */
Expressions *elements = ((ArrayLiteralExp *) expr)->elements;
vec<constructor_elt, va_gc> *elms = NULL;
vec_safe_reserve (elms, elements->dim);
for (size_t i = 0; i < elements->dim; i++)
{
Expression *e = (*elements)[i];
if (e->type->isintegral ())
{
tree value = build_integer_cst (e->toInteger (),
build_ctype (e->type));
CONSTRUCTOR_APPEND_ELT (elms, size_int (i), value);
}
else if (e->type->isfloating ())
{
tree value = build_float_cst (e->toReal (), e->type);
CONSTRUCTOR_APPEND_ELT (elms, size_int (i), value);
}
else
gcc_unreachable ();
}
/* Build vector type. */
int nunits = ((TypeSArray *) expr->type)->dim->toUInteger ();
Type *telem = expr->type->nextOf ();
tree vectype = build_vector_type (build_ctype (telem), nunits);
cst = build_vector_from_ctor (vectype, elms);
}
else
gcc_unreachable ();
/* Encode CST to buffer. */
int len = native_encode_expr (cst, buffer, sizeof (buffer));
if (tb->ty == Tsarray)
{
/* Interpret value as a vector of the same size,
then return the array literal. */
int nunits = ((TypeSArray *) type)->dim->toUInteger ();
Type *elem = type->nextOf ();
tree vectype = build_vector_type (build_ctype (elem), nunits);
cst = native_interpret_expr (vectype, buffer, len);
Expression *e = d_eval_constant_expression (cst);
gcc_assert (e != NULL && e->op == TOKvector);
return ((VectorExp *) e)->e1;
}
else
{
/* Normal interpret cast. */
cst = native_interpret_expr (build_ctype (type), buffer, len);
Expression *e = d_eval_constant_expression (cst);
gcc_assert (e != NULL);
return e;
}
}
/* Check imported module M for any special processing.
Modules we look out for are:
- object: For D runtime type information.
- gcc.builtins: For all gcc builtins.
- core.stdc.*: For all gcc library builtins. */
void
Compiler::loadModule (Module *m)
{
ModuleDeclaration *md = m->md;
if (!md || !md->id || !md->packages)
{
Identifier *id = (md && md->id) ? md->id : m->ident;
if (!strcmp (id->toChars (), "object"))
create_tinfo_types (m);
}
else if (md->packages->dim == 1)
{
if (!strcmp ((*md->packages)[0]->toChars (), "gcc")
&& !strcmp (md->id->toChars (), "builtins"))
d_build_builtins_module (m);
}
else if (md->packages->dim == 2)
{
if (!strcmp ((*md->packages)[0]->toChars (), "core")
&& !strcmp ((*md->packages)[1]->toChars (), "stdc"))
d_add_builtin_module (m);
}
}
/* Implements back-end specific interfaces used by the frontend. */
/* Determine return style of function - whether in registers or through a
hidden pointer to the caller's stack. */
RET
retStyle (TypeFunction *)
{
/* Need the backend type to determine this, but this is called from the
frontend before semantic processing is finished. An accurate value
is not currently needed anyway. */
return RETstack;
}
/* Determine if function FD is a builtin one that we can evaluate in CTFE. */
BUILTIN
isBuiltin (FuncDeclaration *fd)
{
if (fd->builtin != BUILTINunknown)
return fd->builtin;
maybe_set_intrinsic (fd);
return fd->builtin;
}
/* Evaluate builtin D function FD whose argument list is ARGUMENTS.
Return result; NULL if cannot evaluate it. */
Expression *
eval_builtin (Loc loc, FuncDeclaration *fd, Expressions *arguments)
{
if (fd->builtin != BUILTINyes)
return NULL;
tree decl = get_symbol_decl (fd);
gcc_assert (fndecl_built_in_p (decl)
|| DECL_INTRINSIC_CODE (decl) != INTRINSIC_NONE);
TypeFunction *tf = (TypeFunction *) fd->type;
Expression *e = NULL;
input_location = make_location_t (loc);
tree result = d_build_call (tf, decl, NULL, arguments);
result = fold (result);
/* Builtin should be successfully evaluated.
Will only return NULL if we can't convert it. */
if (TREE_CONSTANT (result) && TREE_CODE (result) != CALL_EXPR)
e = d_eval_constant_expression (result);
return e;
}
/* Build and return typeinfo type for TYPE. */
Type *
getTypeInfoType (Type *type, Scope *sc)
{
gcc_assert (type->ty != Terror);
create_typeinfo (type, sc ? sc->_module->importedFrom : NULL);
return type->vtinfo->type;
}
/* Return an inlined copy of a default argument for a function parameter. */
Expression *
inlineCopy (Expression *e, Scope *)
{
return e->copy ();
}
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