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/*
* Copyright (C) 2010 Robin Sonefors
* Copyright (C) 2008-2011 Robert Ancell.
*
* 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 2 of the License, or (at your option) any later
* version. See http://www.gnu.org/copyleft/gpl.html the full text of the
* license.
*/
#include <langinfo.h>
#include <glib.h>
#include <glib-object.h>
#include <string.h>
#include <stdio.h>
#include "mp-serializer.h"
#include "mp-enums.h"
enum {
PROP_0,
PROP_SHOW_THOUSANDS_SEPARATORS,
PROP_SHOW_TRAILING_ZEROES,
PROP_NUMBER_FORMAT,
PROP_BASE,
};
struct MpSerializerPrivate
{
gint leading_digits; /* Number of digits to show before radix */
gint trailing_digits; /* Number of digits to show after radix */
MpDisplayFormat format; /* Number display mode. */
gint show_tsep; /* Set if the thousands separator should be shown. */
gint show_zeroes; /* Set if trailing zeroes should be shown. */
gint base; /* Numeric base */
gunichar tsep; /* Locale specific thousands separator. */
gunichar radix; /* Locale specific radix string. */
gint tsep_count; /* Number of digits between separator. */
};
G_DEFINE_TYPE_WITH_PRIVATE (MpSerializer, mp_serializer, G_TYPE_OBJECT);
MpSerializer *
mp_serializer_new(MpDisplayFormat format, int base, int trailing_digits)
{
MpSerializer *serializer = g_object_new(mp_serializer_get_type(), /*"number-format", format,*/ NULL);
mp_serializer_set_number_format(serializer, format);
mp_serializer_set_base(serializer, base);
mp_serializer_set_trailing_digits(serializer, trailing_digits);
return serializer;
}
static void
mp_to_string_real(MpSerializer *serializer, const MPNumber *x, int base, gboolean force_sign, int *n_digits, GString *string)
{
static gchar digits[] = "0123456789ABCDEF";
MPNumber number = mp_new();
MPNumber integer_component = mp_new();
MPNumber fractional_component = mp_new();
MPNumber temp = mp_new();
int i, last_non_zero;
if (mp_is_negative(x))
mp_abs(x, &number);
else
mp_set_from_mp(x, &number);
/* Add rounding factor */
mp_set_from_integer(base, &temp);
mp_xpowy_integer(&temp, -(serializer->priv->trailing_digits+1), &temp);
mp_multiply_integer(&temp, base, &temp);
mp_divide_integer(&temp, 2, &temp);
mp_add(&number, &temp, &temp);
/* If trying to add rounding factor causes overflow, don't add it */
if (!mp_get_error())
mp_set_from_mp(&temp, &number);
/* Split into integer and fractional component */
mp_floor(&number, &integer_component);
mp_fractional_component(&number, &fractional_component);
/* Write out the integer component least significant digit to most */
mp_set_from_mp(&integer_component, &temp);
i = 0;
do {
MPNumber t = mp_new();
MPNumber t2 = mp_new();
MPNumber t3 = mp_new();
int64_t d;
if (serializer->priv->base == 10 && serializer->priv->show_tsep && i == serializer->priv->tsep_count) {
g_string_prepend_unichar(string, serializer->priv->tsep);
i = 0;
}
i++;
mp_divide_integer(&temp, base, &t);
mp_floor(&t, &t);
mp_multiply_integer(&t, base, &t2);
mp_subtract(&temp, &t2, &t3);
d = mp_to_integer(&t3);
if (d < 16 && d >= 0)
g_string_prepend_c(string, digits[d]);
else
{ /* FIXME: Should show an overflow error message in fixed mode */
g_string_assign(string, "0");
*n_digits = serializer->priv->leading_digits+1;
break;
}
(*n_digits)++;
mp_set_from_mp(&t, &temp);
mp_clear(&t);
mp_clear(&t2);
mp_clear(&t3);
} while (!mp_is_zero(&temp));
last_non_zero = string->len;
g_string_append_unichar(string, serializer->priv->radix);
/* Write out the fractional component */
mp_set_from_mp(&fractional_component, &temp);
for (i = serializer->priv->trailing_digits; i > 0 && !mp_is_zero(&temp); i--) {
int d;
MPNumber digit = mp_new();
mp_multiply_integer(&temp, base, &temp);
mp_floor(&temp, &digit);
d = mp_to_integer(&digit);
g_string_append_c(string, digits[d]);
if(d != 0)
last_non_zero = string->len;
mp_subtract(&temp, &digit, &temp);
mp_clear(&digit);
}
/* Strip trailing zeroes */
if (!serializer->priv->show_zeroes || serializer->priv->trailing_digits == 0)
g_string_truncate(string, last_non_zero);
/* Add sign on non-zero values */
if (strcmp(string->str, "0") != 0 || force_sign) {
if (mp_is_negative(x))
g_string_prepend(string, "−");
else if (force_sign)
g_string_prepend(string, "+");
}
/* Append base suffix if not in default base */
if (base != serializer->priv->base) {
const gchar *base_digits[] = {"₀", "₁", "₂", "₃", "₄", "₅", "₆", "₇", "₈", "₉"};
int multiplier = 1;
int b = base;
while (base / multiplier != 0)
multiplier *= 10;
while (multiplier != 1) {
int d;
multiplier /= 10;
d = b / multiplier;
g_string_append(string, base_digits[d]);
b -= d * multiplier;
}
}
mp_clear(&number);
mp_clear(&integer_component);
mp_clear(&fractional_component);
mp_clear(&temp);
}
static gchar *
mp_to_string(MpSerializer *serializer, const MPNumber *x, int *n_digits)
{
GString *string;
MPNumber x_real = mp_new();
gchar *result;
string = g_string_sized_new(1024);
mp_real_component(x, &x_real);
mp_to_string_real(serializer, &x_real, serializer->priv->base, FALSE, n_digits, string);
if (mp_is_complex(x)) {
GString *s;
gboolean force_sign = TRUE;
MPNumber x_im = mp_new();
int n_complex_digits = 0;
mp_imaginary_component(x, &x_im);
if (strcmp(string->str, "0") == 0) {
g_string_assign(string, "");
force_sign = FALSE;
}
s = g_string_sized_new(1024);
mp_to_string_real(serializer, &x_im, 10, force_sign, &n_complex_digits, s);
if (n_complex_digits > *n_digits)
*n_digits = n_complex_digits;
if (strcmp(s->str, "0") == 0 || strcmp(s->str, "+0") == 0 || strcmp(s->str, "−0") == 0) {
/* Ignore unless the real part was also zero and string was cleared*/
if (string->len == 0) {
g_string_append(string, "0");
}
}
else if (strcmp(s->str, "1") == 0) {
g_string_append(string, "i");
}
else if (strcmp(s->str, "+1") == 0) {
g_string_append(string, "+i");
}
else if (strcmp(s->str, "−1") == 0) {
g_string_append(string, "−i");
}
else {
if (strcmp(s->str, "+0") == 0)
g_string_append(string, "+");
else if (strcmp(s->str, "0") != 0)
g_string_append(string, s->str);
g_string_append(string, "i");
}
g_string_free(s, TRUE);
mp_clear(&x_im);
}
result = g_strndup(string->str, string->len + 1);
g_string_free(string, TRUE);
mp_clear(&x_real);
return result;
}
static int
mp_to_exponential_string_real(MpSerializer *serializer, const MPNumber *x, GString *string, gboolean eng_format, int *n_digits)
{
gchar *fixed;
MPNumber t = mp_new();
MPNumber z = mp_new();
MPNumber base = mp_new();
MPNumber base3 = mp_new();
MPNumber base10 = mp_new();
MPNumber base10inv = mp_new();
MPNumber mantissa = mp_new();
int exponent = 0;
mp_abs(x, &z);
if (mp_is_negative(x))
g_string_append(string, "−");
mp_set_from_mp(&z, &mantissa);
mp_set_from_integer(serializer->priv->base, &base);
mp_xpowy_integer(&base, 3, &base3);
mp_xpowy_integer(&base, 10, &base10);
mp_set_from_integer(1, &t);
mp_divide(&t, &base10, &base10inv);
if (!mp_is_zero(&mantissa)) {
while (!eng_format && mp_is_greater_equal(&mantissa, &base10)) {
exponent += 10;
mp_multiply(&mantissa, &base10inv, &mantissa);
}
while ((!eng_format && mp_is_greater_equal(&mantissa, &base)) ||
(eng_format && (mp_is_greater_equal(&mantissa, &base3) || exponent % 3 != 0))) {
exponent += 1;
mp_divide(&mantissa, &base, &mantissa);
}
while (!eng_format && mp_is_less_than(&mantissa, &base10inv)) {
exponent -= 10;
mp_multiply(&mantissa, &base10, &mantissa);
}
mp_set_from_integer(1, &t);
while (mp_is_less_than(&mantissa, &t) || (eng_format && exponent % 3 != 0)) {
exponent -= 1;
mp_multiply(&mantissa, &base, &mantissa);
}
}
fixed = mp_to_string(serializer, &mantissa, n_digits);
g_string_append(string, fixed);
g_free(fixed);
mp_clear(&t);
mp_clear(&z);
mp_clear(&base);
mp_clear(&base3);
mp_clear(&base10);
mp_clear(&base10inv);
mp_clear(&mantissa);
return exponent;
}
static void
append_exponent(GString *string, int exponent)
{
const gchar *super_digits[] = {"⁰", "¹", "²", "³", "⁴", "⁵", "⁶", "⁷", "⁸", "⁹"};
gchar *super_value, *c;
if (exponent == 0)
return;
g_string_append_printf(string, "×10"); // FIXME: Use the current base
if (exponent < 0) {
exponent = -exponent;
g_string_append(string, "⁻");
}
super_value = g_strdup_printf("%d", exponent);
for (c = super_value; *c; c++)
g_string_append(string, super_digits[*c - '0']);
g_free (super_value);
}
static gchar *
mp_to_exponential_string(MpSerializer *serializer, const MPNumber *x, gboolean eng_format, int *n_digits)
{
GString *string;
MPNumber x_real = mp_new();
gchar *result;
int exponent;
string = g_string_sized_new(1024);
mp_real_component(x, &x_real);
exponent = mp_to_exponential_string_real(serializer, &x_real, string, eng_format, n_digits);
append_exponent(string, exponent);
if (mp_is_complex(x)) {
GString *s;
MPNumber x_im = mp_new();
int n_complex_digits = 0;
mp_imaginary_component(x, &x_im);
if (strcmp(string->str, "0") == 0)
g_string_assign(string, "");
else if (!mp_is_negative(&x_im))
g_string_append(string, "+");
s = g_string_sized_new(1024);
exponent = mp_to_exponential_string_real(serializer, &x_im, s, eng_format, &n_complex_digits);
if (n_complex_digits > *n_digits)
*n_digits = n_complex_digits;
if (strcmp(s->str, "0") == 0 || strcmp(s->str, "+0") == 0 || strcmp(s->str, "−0") == 0) {
/* Ignore */
}
else if (strcmp(s->str, "1") == 0) {
g_string_append(string, "i");
}
else if (strcmp(s->str, "+1") == 0) {
g_string_append(string, "+i");
}
else if (strcmp(s->str, "−1") == 0) {
g_string_append(string, "−i");
}
else {
if (strcmp(s->str, "+0") == 0)
g_string_append(string, "+");
else if (strcmp(s->str, "0") != 0)
g_string_append(string, s->str);
g_string_append(string, "i");
}
g_string_free(s, TRUE);
mp_clear(&x_im);
append_exponent(string, exponent);
}
result = g_strndup(string->str, string->len + 1);
g_string_free(string, TRUE);
mp_clear(&x_real);
return result;
}
gchar *
mp_serializer_to_string(MpSerializer *serializer, const MPNumber *x)
{
gchar *s0;
int n_digits = 0;
switch(serializer->priv->format) {
default:
case MP_DISPLAY_FORMAT_AUTOMATIC:
s0 = mp_to_string(serializer, x, &n_digits);
if (n_digits <= serializer->priv->leading_digits)
return s0;
else {
g_free (s0);
return mp_to_exponential_string(serializer, x, FALSE, &n_digits);
}
break;
case MP_DISPLAY_FORMAT_FIXED:
return mp_to_string(serializer, x, &n_digits);
case MP_DISPLAY_FORMAT_SCIENTIFIC:
return mp_to_exponential_string(serializer, x, FALSE, &n_digits);
case MP_DISPLAY_FORMAT_ENGINEERING:
return mp_to_exponential_string(serializer, x, TRUE, &n_digits);
}
}
gboolean
mp_serializer_from_string(MpSerializer *serializer, const gchar *str, MPNumber *z)
{
return mp_set_from_string(str, serializer->priv->base, z);
}
void
mp_serializer_set_base(MpSerializer *serializer, gint base)
{
serializer->priv->base = base;
}
int
mp_serializer_get_base(MpSerializer *serializer)
{
return serializer->priv->base;
}
void
mp_serializer_set_radix(MpSerializer *serializer, gunichar radix)
{
serializer->priv->radix = radix;
}
gunichar
mp_serializer_get_radix(MpSerializer *serializer)
{
return serializer->priv->radix;
}
void
mp_serializer_set_thousands_separator(MpSerializer *serializer, gunichar separator)
{
serializer->priv->tsep = separator;
}
gunichar
mp_serializer_get_thousands_separator(MpSerializer *serializer)
{
return serializer->priv->tsep;
}
gint
mp_serializer_get_thousands_separator_count(MpSerializer *serializer)
{
return serializer->priv->tsep_count;
}
void
mp_serializer_set_show_thousands_separators(MpSerializer *serializer, gboolean visible)
{
serializer->priv->show_tsep = visible;
}
gboolean
mp_serializer_get_show_thousands_separators(MpSerializer *serializer)
{
return serializer->priv->show_tsep;
}
void
mp_serializer_set_show_trailing_zeroes(MpSerializer *serializer, gboolean visible)
{
serializer->priv->show_zeroes = visible;
}
gboolean
mp_serializer_get_show_trailing_zeroes(MpSerializer *serializer)
{
return serializer->priv->show_zeroes;
}
int
mp_serializer_get_leading_digits(MpSerializer *serializer)
{
return serializer->priv->leading_digits;
}
void
mp_serializer_set_leading_digits(MpSerializer *serializer, int leading_digits)
{
serializer->priv->leading_digits = leading_digits;
}
int
mp_serializer_get_trailing_digits(MpSerializer *serializer)
{
return serializer->priv->trailing_digits;
}
void
mp_serializer_set_trailing_digits(MpSerializer *serializer, int trailing_digits)
{
serializer->priv->trailing_digits = trailing_digits;
}
MpDisplayFormat
mp_serializer_get_number_format(MpSerializer *serializer)
{
return serializer->priv->format;
}
void
mp_serializer_set_number_format(MpSerializer *serializer, MpDisplayFormat format)
{
serializer->priv->format = format;
}
static void
mp_serializer_set_property(GObject *object,
guint prop_id,
const GValue *value,
GParamSpec *pspec)
{
MpSerializer *self = MP_SERIALIZER(object);
switch (prop_id) {
case PROP_SHOW_THOUSANDS_SEPARATORS:
mp_serializer_set_show_thousands_separators(self, g_value_get_boolean(value));
break;
case PROP_SHOW_TRAILING_ZEROES:
mp_serializer_set_show_trailing_zeroes(self, g_value_get_boolean(value));
break;
case PROP_BASE:
mp_serializer_set_base(self, g_value_get_int(value));
break;
default:
G_OBJECT_WARN_INVALID_PROPERTY_ID(object, prop_id, pspec);
break;
}
}
static void
mp_serializer_get_property(GObject *object,
guint prop_id,
GValue *value,
GParamSpec *pspec)
{
MpSerializer *self = MP_SERIALIZER(object);
switch (prop_id) {
case PROP_SHOW_THOUSANDS_SEPARATORS:
g_value_set_boolean(value, mp_serializer_get_show_thousands_separators(self));
break;
case PROP_SHOW_TRAILING_ZEROES:
g_value_set_boolean(value, mp_serializer_get_show_trailing_zeroes(self));
break;
case PROP_BASE:
g_value_set_int(value, mp_serializer_get_base(self));
break;
default:
G_OBJECT_WARN_INVALID_PROPERTY_ID(object, prop_id, pspec);
break;
}
}
static void
mp_serializer_class_init(MpSerializerClass *klass)
{
GObjectClass *object_class = G_OBJECT_CLASS(klass);
object_class->get_property = mp_serializer_get_property;
object_class->set_property = mp_serializer_set_property;
g_object_class_install_property(object_class,
PROP_SHOW_THOUSANDS_SEPARATORS,
g_param_spec_boolean("show-thousands-separators",
"show-thousands-separators",
"Show thousands separators",
TRUE,
G_PARAM_READWRITE));
g_object_class_install_property(object_class,
PROP_SHOW_TRAILING_ZEROES,
g_param_spec_boolean("show-trailing-zeroes",
"show-trailing-zeroes",
"Show trailing zeroes",
FALSE,
G_PARAM_READWRITE));
g_object_class_install_property(object_class,
PROP_NUMBER_FORMAT,
g_param_spec_enum("number-format",
"number-format",
"Display format",
math_mp_display_format_get_type(),
MP_DISPLAY_FORMAT_AUTOMATIC,
G_PARAM_READWRITE));
g_object_class_install_property(object_class,
PROP_BASE,
g_param_spec_int("base",
"base",
"Default number base",
2, 16, 10,
G_PARAM_READWRITE));
}
static void
mp_serializer_init(MpSerializer *serializer)
{
gchar *radix, *tsep;
serializer->priv = mp_serializer_get_instance_private (serializer);
radix = nl_langinfo(RADIXCHAR);
serializer->priv->radix = radix ? g_utf8_get_char(g_locale_to_utf8(radix, -1, NULL, NULL, NULL)) : '.';
tsep = nl_langinfo(THOUSEP);
if (tsep && tsep[0] != '\0')
serializer->priv->tsep = g_utf8_get_char(g_locale_to_utf8(tsep, -1, NULL, NULL, NULL));
else
serializer->priv->tsep = ' ';
serializer->priv->tsep_count = 3;
serializer->priv->base = 10;
serializer->priv->leading_digits = 12;
serializer->priv->trailing_digits = 9;
serializer->priv->show_zeroes = FALSE;
serializer->priv->show_tsep = FALSE;
serializer->priv->format = MP_DISPLAY_FORMAT_AUTOMATIC;
}
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