mes/src/lib.c

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/* -*-comment-start: "//";comment-end:""-*-
* GNU Mes --- Maxwell Equations of Software
* Copyright © 2016,2017,2018,2019 Jan (janneke) Nieuwenhuizen <janneke@gnu.org>
* Copyright © 2021 W. J. van der Laan <laanwj@protonmail.com>
*
* This file is part of GNU Mes.
*
* GNU Mes 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 of the License, or (at
* your option) any later version.
*
* GNU Mes 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 GNU Mes. If not, see <http://www.gnu.org/licenses/>.
*/
build: Simplify. core: Make mes src/ c files separate compilation units. * include/mes/constants.h: New file. * include/mes/macros.h: New file. * include/mes/mes.h: New file. * src/gc.c: Update. * src/hash.c: Update. * src/lib.c: Update. * src/math.c: Update. * src/mes.c: Update. * src/module.c: Update. * src/posix.c: Update. * src/reader.c: Update. * src/string.c: Update. * src/struct.c: Update. * src/vector.c: Update. mes: Update datadir. * src/mes.c (g_datadir): New global. (open_boot): Rename from read_boot. (read_boot): New function. * mes/module/mes/boot-0.scm: Move from boot-0.scm.in * configure: Update. * configure.sh: Update. mescc: Create libraries from separate files. * .gitignore: Update. * build-aux/bootstrap-mes.sh: Remove. * build-aux/bootstrap.sh.in: Remove. * build-aux/build-guile.sh: Update. * build-aux/build-mes.sh: Update. * build-aux/build-scaffold.sh: New file. * build-aux/build.sh.in: Update. * build-aux/cc.sh: Update. * build-aux/check-tcc.sh: Remove. * build-aux/config.sh.in: New file. * build-aux/config.sh: Remove. * build-aux/install.sh.in: Update. * build-aux/test-boot.sh: New file. * build-aux/test-c.sh: New file. * build-aux/test-driver: New file. * build-aux/test-suite.sh: New file. * build-aux/trace.sh: Update. * build-aux/uninstall.sh.in: Update. * configure: Update. * configure.sh: Update. * lib/linux/x86-mes-mescc/crt1.c: Move from lib/linux/x86-mes. * lib/linux/x86-mes-mescc/mini.c: Likewise. * lib/linux/x86_64-mes-mescc/crt1.c: Move from lib/linux/x86_64-mes. * lib/linux/x86_64-mes-mescc/mini.c: Likewise. * lib/linux/x86-mes-gcc/syscall.c: Rename from mes.c. * lib/linux/x86-mes-mescc/syscall.c: Likewise. * lib/linux/x86_64-mes-gcc/syscall.c: Likewise. * lib/linux/x86_64-mes-mescc/syscall.c: Likewise. * lib/mes/mes_open.c: Include config.h. * lib/tests/stdio/70-printf-hello.c: Likewise. * lib/tests/stdio/70-printf-simple.c: Likewise. * scaffold/gc-test.sh: New file. * simple.sh: Update.
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#include "mes/lib.h"
#include "mes/mes.h"
#include <stdlib.h>
SCM
exit_ (SCM x) /*:((name . "exit")) */
{
assert_msg (TYPE (x) == TNUMBER, "TYPE (x) == TNUMBER");
exit (VALUE (x));
}
SCM
frame_printer (SCM frame)
{
fdputs ("#<", __stdout);
display_ (struct_ref_ (frame, 2));
fdputc (' ', __stdout);
fdputs ("procedure: ", __stdout);
display_ (struct_ref_ (frame, 3));
fdputc ('>', __stdout);
}
SCM
make_frame_type () /*:((internal)) */
{
SCM record_type = cell_symbol_record_type; // FIXME
SCM fields = cell_nil;
fields = cons (cell_symbol_procedure, fields);
fields = cons (fields, cell_nil);
fields = cons (cell_symbol_frame, fields);
return make_struct (record_type, fields, cell_unspecified);
}
SCM
make_frame (SCM stack, long index)
{
SCM frame_type = make_frame_type ();
long array_index = 0;
SCM procedure = 0;
if (index != 0)
{
array_index = (STACK_SIZE - (index * FRAME_SIZE));
procedure = g_stack_array[array_index + FRAME_PROCEDURE];
}
if (procedure == 0)
procedure = cell_f;
SCM values = cell_nil;
values = cons (procedure, values);
values = cons (cell_symbol_frame, values);
return make_struct (frame_type, values, cstring_to_symbol ("frame-printer"));
}
SCM
make_stack_type () /*:((internal)) */
{
SCM record_type = cell_symbol_record_type; // FIXME
SCM fields = cell_nil;
fields = cons (cstring_to_symbol ("frames"), fields);
fields = cons (fields, cell_nil);
fields = cons (cell_symbol_stack, fields);
return make_struct (record_type, fields, cell_unspecified);
}
SCM
make_stack (SCM stack) /*:((arity . n)) */
{
SCM stack_type = make_stack_type ();
long size = (STACK_SIZE - g_stack) / FRAME_SIZE;
SCM frames = make_vector__ (size);
long i;
for (i = 0; i < size; i = i + 1)
{
SCM frame = make_frame (stack, i);
vector_set_x_ (frames, i, frame);
}
SCM values = cell_nil;
values = cons (frames, values);
values = cons (cell_symbol_stack, values);
return make_struct (stack_type, values, cell_unspecified);
}
SCM
stack_length (SCM stack)
{
SCM frames = struct_ref_ (stack, 3);
return vector_length (frames);
}
SCM
stack_ref (SCM stack, SCM index)
{
SCM frames = struct_ref_ (stack, 3);
return vector_ref (frames, index);
}
SCM
xassq (SCM x, SCM a) /* For speed in core. */
{
while (a != cell_nil)
{
if (x == CDAR (a))
return CAR (a);
a = CDR (a);
}
return cell_f;
}
SCM
memq (SCM x, SCM a)
{
int t = TYPE (x);
if (t == TCHAR || t == TNUMBER)
{
long v = VALUE (x);
while (a != cell_nil && v != VALUE (CAR (a)))
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a = CDR (a);
}
else if (t == TKEYWORD)
{
while (a != cell_nil && (TYPE (CAR (a)) != TKEYWORD || string_equal_p (x, CAR (a)) == cell_f))
a = CDR (a);
}
else
while (a != cell_nil && x != CAR (a))
a = CDR (a);
if (a != cell_nil)
return a;
return cell_f;
}
SCM
equal2_p (SCM a, SCM b)
{
equal2:
if (a == b)
return cell_t;
if (TYPE (a) == TPAIR && TYPE (b) == TPAIR)
{
if (equal2_p (CAR (a), CAR (b)) == cell_t)
{
a = CDR (a);
b = CDR (b);
goto equal2;
}
return cell_f;
}
if (TYPE (a) == TSTRING && TYPE (b) == TSTRING)
return string_equal_p (a, b);
if (TYPE (a) == TVECTOR && TYPE (b) == TVECTOR)
{
if (LENGTH (a) != LENGTH (b))
return cell_f;
long i;
for (i = 0; i < LENGTH (a); i = i + 1)
{
SCM ai = VECTOR (a) + i;
SCM bi = VECTOR (b) + i;
if (TYPE (ai) == TREF)
ai = REF (ai);
if (TYPE (bi) == TREF)
bi = REF (bi);
if (equal2_p (ai, bi) == cell_f)
return cell_f;
}
return cell_t;
}
return eq_p (a, b);
}
SCM
last_pair (SCM x)
{
while (x != cell_nil && CDR (x) != cell_nil)
x = CDR (x);
return x;
}
SCM
pair_p (SCM x)
{
if (TYPE (x) == TPAIR)
return cell_t;
return cell_f;
}
SCM
char_to_integer (SCM x)
{
return make_number (VALUE (x));
}
SCM
integer_to_char (SCM x)
{
return make_char (VALUE (x));
}