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view tests/unistr/test-u8-mbtoucr.c @ 15595:328819af1c02

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Support for MSVC compiler: Avoid division by a literal 0. * lib/math.in.h (NAN): Define through a function call also on MSVC. * m4/frexp.m4 (gl_FUNC_FREXP_WORKS): Divide by 'zero' instead of 0.0. * m4/printf.m4 (gl_PRINTF_INFINITE, gl_PRINTF_DIRECTIVE_A, gl_PRINTF_DIRECTIVE_F, gl_PRINTF_FLAG_ZERO): Likewise. (gl_PRINTF_INFINITE_LONG_DOUBLE): Divide by 'zeroL' instead of 0.0L. * tests/infinity.h: New file. * tests/nan.h (NaNf, NaNd, NaNl): Define through a function call also on MSVC. * tests/test-ceilf1.c: Include infinity.h. (main): Use Infinityf. * tests/test-ceil1.c: Include infinity.h. (main): Use Infinityd. * tests/test-ceill.c: Include infinity.h. (main): Use Infinityl. * tests/test-dprintf-posix.c: Include infinity.h. (test_function): Use Infinityd. * tests/test-floorf1.c: Include infinity.h. (main): Use Infinityf. * tests/test-floor1.c: Include infinity.h. (main): Use Infinityd. * tests/test-floorl.c: Include infinity.h. (main): Use Infinityl. * tests/test-fprintf-posix.c: Include infinity.h. (test_function): Use Infinityd. * tests/test-frexp.c: Include infinity.h. (main): Use Infinityd. * tests/test-frexpl.c: Include infinity.h. (main): Use Infinityl. * tests/test-isfinite.c: Include infinity.h. (test_isfinitef): Use Infinityf. (test_isfinited): Use Infinityd. (test_isfinitel): Use Infinityl. * tests/test-isinf.c: Include infinity.h. (test_isinff): Use Infinityf. (test_isinfd): Use Infinityd. (test_isinfl): Use Infinityl. * tests/test-isnan.c: Include infinity.h. (test_float): Use Infinityf. (test_double): Use Infinityd. (test_long_double): Use Infinityl. * tests/test-isnanf.h: Include infinity.h. (main): Use Infinityf. * tests/test-isnand.h: Include infinity.h. (main): Use Infinityd. * tests/test-isnanl.h: Include infinity.h. (main): Use Infinityl. * tests/test-ldexpl.c: Include infinity.h. (main): Use Infinityl. * tests/test-printf-posix.h: Include infinity.h. (test_function): Use Infinityd. * tests/test-roundf1.c: Include infinity.h. (main): Use Infinityf. * tests/test-round1.c: Include infinity.h. (main): Use Infinityd. * tests/test-roundl.c: Include infinity.h. (main): Use Infinityl. * tests/test-signbit.c: Include infinity.h. (test_signbitf): Use Infinityf. (test_signbitd): Use Infinityd. (test_signbitl): Use Infinityl. * tests/test-snprintf-posix.h: Include infinity.h. (test_function): Use Infinityd, Infinityl. * tests/test-sprintf-posix.h: Include infinity.h. (test_function): Use Infinityd, Infinityl. * tests/test-truncf1.c: Include infinity.h. (main): Use Infinityf. * tests/test-trunc1.c: Include infinity.h. (main): Use Infinityd. * tests/test-truncl.c: Include infinity.h. (main): Use Infinityl. * tests/test-vasnprintf-posix.c: Include infinity.h. (test_function): Use Infinityd, Infinityl. * tests/test-vasprintf-posix.c: Include infinity.h. (test_function): Use Infinityd, Infinityl. * modules/ceilf-tests (Files): Add tests/infinity.h. * modules/ceil-tests (Files): Likewise. * modules/ceill-tests (Files): Likewise. * modules/dprintf-posix-tests (Files): Likewise. * modules/floorf-tests (Files): Likewise. * modules/floor-tests (Files): Likewise. * modules/floorl-tests (Files): Likewise. * modules/fprintf-posix-tests (Files): Likewise. * modules/frexp-tests (Files): Likewise. * modules/frexp-nolibm-tests (Files): Likewise. * modules/frexpl-tests (Files): Likewise. * modules/frexpl-nolibm-tests (Files): Likewise. * modules/isfinite-tests (Files): Likewise. * modules/isinf-tests (Files): Likewise. * modules/isnan-tests (Files): Likewise. * modules/isnanf-tests (Files): Likewise. * modules/isnanf-nolibm-tests (Files): Likewise. * modules/isnand-tests (Files): Likewise. * modules/isnand-nolibm-tests (Files): Likewise. * modules/isnanl-tests (Files): Likewise. * modules/isnanl-nolibm-tests (Files): Likewise. * modules/ldexpl-tests (Files): Likewise. * modules/printf-posix-tests (Files): Likewise. * modules/roundf-tests (Files): Likewise. * modules/round-tests (Files): Likewise. * modules/roundl-tests (Files): Likewise. * modules/signbit-tests (Files): Likewise. * modules/snprintf-posix-tests (Files): Likewise. * modules/sprintf-posix-tests (Files): Likewise. * modules/truncf-tests (Files): Likewise. * modules/trunc-tests (Files): Likewise. * modules/truncl-tests (Files): Likewise. * modules/vasnprintf-posix-tests (Files): Likewise. * modules/vasprintf-posix-tests (Files): Likewise. * modules/vdprintf-posix-tests (Files): Likewise. * modules/vfprintf-posix-tests (Files): Likewise. * modules/vprintf-posix-tests (Files): Likewise. * modules/vsnprintf-posix-tests (Files): Likewise. * modules/vsprintf-posix-tests (Files): Likewise. * modules/xprintf-posix-tests (Files): Likewise.
author Bruno Haible <bruno@clisp.org>
date Sun, 11 Sep 2011 17:29:11 +0200
parents 97fc9a21a8fb
children 8250f2777afc
line wrap: on
line source

/* Test of u8_mbtoucr() function.
   Copyright (C) 2010-2011 Free Software Foundation, Inc.

   This program 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.

   This program 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 this program.  If not, see <http://www.gnu.org/licenses/>.  */

/* Written by Bruno Haible <bruno@clisp.org>, 2010.  */

#include <config.h>

#include "unistr.h"

#include "macros.h"

int
main ()
{
  ucs4_t uc;
  int ret;

  /* Test NUL unit input.  */
  {
    static const uint8_t input[] = "";
    uc = 0xBADFACE;
    ret = u8_mbtoucr (&uc, input, 1);
    ASSERT (ret == 1);
    ASSERT (uc == 0);
  }

  /* Test ISO 646 unit input.  */
  {
    ucs4_t c;
    uint8_t buf[1];

    for (c = 0; c < 0x80; c++)
      {
        buf[0] = c;
        uc = 0xBADFACE;
        ret = u8_mbtoucr (&uc, buf, 1);
        ASSERT (ret == 1);
        ASSERT (uc == c);
      }
  }

  /* Test 2-byte character input.  */
  {
    static const uint8_t input[] = { 0xC3, 0x97 };
    uc = 0xBADFACE;
    ret = u8_mbtoucr (&uc, input, 2);
    ASSERT (ret == 2);
    ASSERT (uc == 0x00D7);
  }

  /* Test 3-byte character input.  */
  {
    static const uint8_t input[] = { 0xE2, 0x82, 0xAC };
    uc = 0xBADFACE;
    ret = u8_mbtoucr (&uc, input, 3);
    ASSERT (ret == 3);
    ASSERT (uc == 0x20AC);
  }

  /* Test 4-byte character input.  */
  {
    static const uint8_t input[] = { 0xF4, 0x8F, 0xBF, 0xBD };
    uc = 0xBADFACE;
    ret = u8_mbtoucr (&uc, input, 4);
    ASSERT (ret == 4);
    ASSERT (uc == 0x10FFFD);
  }

  /* Test incomplete/invalid 1-byte input.  */
  {
    static const uint8_t input[] = { 0xC1 };
    uc = 0xBADFACE;
    ret = u8_mbtoucr (&uc, input, 1);
    ASSERT (ret == -1);
    ASSERT (uc == 0xFFFD);
  }
  {
    static const uint8_t input[] = { 0xC3 };
    uc = 0xBADFACE;
    ret = u8_mbtoucr (&uc, input, 1);
    ASSERT (ret == -2);
    ASSERT (uc == 0xFFFD);
  }
  {
    static const uint8_t input[] = { 0xE2 };
    uc = 0xBADFACE;
    ret = u8_mbtoucr (&uc, input, 1);
    ASSERT (ret == -2);
    ASSERT (uc == 0xFFFD);
  }
  {
    static const uint8_t input[] = { 0xF4 };
    uc = 0xBADFACE;
    ret = u8_mbtoucr (&uc, input, 1);
    ASSERT (ret == -2);
    ASSERT (uc == 0xFFFD);
  }
  {
    static const uint8_t input[] = { 0xFE };
    uc = 0xBADFACE;
    ret = u8_mbtoucr (&uc, input, 1);
    ASSERT (ret == -1);
    ASSERT (uc == 0xFFFD);
  }

  /* Test incomplete/invalid 2-byte input.  */
  {
    static const uint8_t input[] = { 0xE0, 0x9F };
    uc = 0xBADFACE;
    ret = u8_mbtoucr (&uc, input, 2);
    ASSERT (ret == -1);
    ASSERT (uc == 0xFFFD);
  }
  {
    static const uint8_t input[] = { 0xE2, 0x82 };
    uc = 0xBADFACE;
    ret = u8_mbtoucr (&uc, input, 2);
    ASSERT (ret == -2);
    ASSERT (uc == 0xFFFD);
  }
  {
    static const uint8_t input[] = { 0xE2, 0xD0 };
    uc = 0xBADFACE;
    ret = u8_mbtoucr (&uc, input, 2);
    ASSERT (ret == -1);
    ASSERT (uc == 0xFFFD);
  }
  {
    static const uint8_t input[] = { 0xF0, 0x8F };
    uc = 0xBADFACE;
    ret = u8_mbtoucr (&uc, input, 2);
    ASSERT (ret == -1);
    ASSERT (uc == 0xFFFD);
  }
  {
    static const uint8_t input[] = { 0xF3, 0x8F };
    uc = 0xBADFACE;
    ret = u8_mbtoucr (&uc, input, 2);
    ASSERT (ret == -2);
    ASSERT (uc == 0xFFFD);
  }
  {
    static const uint8_t input[] = { 0xF3, 0xD0 };
    uc = 0xBADFACE;
    ret = u8_mbtoucr (&uc, input, 2);
    ASSERT (ret == -1);
    ASSERT (uc == 0xFFFD);
  }

  /* Test incomplete/invalid 3-byte input.  */
  {
    static const uint8_t input[] = { 0xF3, 0x8F, 0xBF };
    uc = 0xBADFACE;
    ret = u8_mbtoucr (&uc, input, 3);
    ASSERT (ret == -2);
    ASSERT (uc == 0xFFFD);
  }
  {
    static const uint8_t input[] = { 0xF3, 0xD0, 0xBF };
    uc = 0xBADFACE;
    ret = u8_mbtoucr (&uc, input, 3);
    ASSERT (ret == -1);
    ASSERT (uc == 0xFFFD);
  }
  {
    static const uint8_t input[] = { 0xF3, 0x8F, 0xD0 };
    uc = 0xBADFACE;
    ret = u8_mbtoucr (&uc, input, 3);
    ASSERT (ret == -1);
    ASSERT (uc == 0xFFFD);
  }

  return 0;
}