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Add new coding style rules and fix appeared issues.

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JerryScript-DCO-1.0-Signed-off-by: Andrey Shitov a.shitov@samsung.com
This commit is contained in:
Andrey Shitov
2015-05-12 19:17:07 +03:00
parent ca12c16607
commit 9763a93df3
89 changed files with 1152 additions and 626 deletions
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jerry-core/ecma/base/ecma-helpers-conversion.cpp
+60 -60
View File
@@ -71,10 +71,10 @@
ECMA_NUMBER_CONVERSION_128BIT_INTEGER_CHECK_PARTS_ARE_32BIT (name_copy_to); \
ECMA_NUMBER_CONVERSION_128BIT_INTEGER_CHECK_PARTS_ARE_32BIT (name_copy_from); \
\
name_copy_to[0] = name_copy_from [0]; \
name_copy_to[1] = name_copy_from [1]; \
name_copy_to[2] = name_copy_from [2]; \
name_copy_to[3] = name_copy_from [3]; \
name_copy_to[0] = name_copy_from[0]; \
name_copy_to[1] = name_copy_from[1]; \
name_copy_to[2] = name_copy_from[2]; \
name_copy_to[3] = name_copy_from[3]; \
}
/**
@@ -176,13 +176,13 @@
{ \
ECMA_NUMBER_CONVERSION_128BIT_INTEGER_CHECK_PARTS_ARE_32BIT (name); \
\
name [0] += 1ull; \
name [1] += (name [0] >> 32u); \
name [0] = (uint32_t) name [0]; \
name [2] += (name [1] >> 32u); \
name [1] = (uint32_t) name [1]; \
name [3] += (name [2] >> 32u); \
name [2] = (uint32_t) name [2]; \
name[0] += 1ull; \
name[1] += (name[0] >> 32u); \
name[0] = (uint32_t) name[0]; \
name[2] += (name[1] >> 32u); \
name[1] = (uint32_t) name[1]; \
name[3] += (name[2] >> 32u); \
name[2] = (uint32_t) name[2]; \
\
ECMA_NUMBER_CONVERSION_128BIT_INTEGER_CHECK_PARTS_ARE_32BIT (name); \
}
@@ -195,17 +195,17 @@
ECMA_NUMBER_CONVERSION_128BIT_INTEGER_CHECK_PARTS_ARE_32BIT (name_add_to); \
ECMA_NUMBER_CONVERSION_128BIT_INTEGER_CHECK_PARTS_ARE_32BIT (name_to_add); \
\
name_add_to [0] += name_to_add [0]; \
name_add_to [1] += name_to_add [1]; \
name_add_to [2] += name_to_add [2]; \
name_add_to [3] += name_to_add [3]; \
name_add_to[0] += name_to_add[0]; \
name_add_to[1] += name_to_add[1]; \
name_add_to[2] += name_to_add[2]; \
name_add_to[3] += name_to_add[3]; \
\
name_add_to [1] += (name_add_to [0] >> 32u); \
name_add_to [0] = (uint32_t) name_add_to [0]; \
name_add_to [2] += (name_add_to [1] >> 32u); \
name_add_to [1] = (uint32_t) name_add_to [1]; \
name_add_to [3] += (name_add_to [2] >> 32u); \
name_add_to [2] = (uint32_t) name_add_to [2]; \
name_add_to[1] += (name_add_to[0] >> 32u); \
name_add_to[0] = (uint32_t) name_add_to[0]; \
name_add_to[2] += (name_add_to[1] >> 32u); \
name_add_to[1] = (uint32_t) name_add_to[1]; \
name_add_to[3] += (name_add_to[2] >> 32u); \
name_add_to[2] = (uint32_t) name_add_to[2]; \
\
ECMA_NUMBER_CONVERSION_128BIT_INTEGER_CHECK_PARTS_ARE_32BIT (name_add_to); \
ECMA_NUMBER_CONVERSION_128BIT_INTEGER_CHECK_PARTS_ARE_32BIT (name_to_add); \
@@ -244,7 +244,7 @@
const uint64_t div10_p_mid = 0x99999999ul; \
const uint64_t div10_p_high = 0x19999999ul; \
\
uint64_t intermediate [8] = { 0, 0, 0, 0, 0, 0, 0, 0 }; \
uint64_t intermediate[8] = { 0, 0, 0, 0, 0, 0, 0, 0 }; \
uint64_t l0, l1, l2, l3, m0, m1, m2, m3, h0, h1, h2, h3; \
l0 = name[0] * div10_p_low; \
l1 = name[1] * div10_p_low; \
@@ -297,25 +297,25 @@
intermediate[6] += (uint32_t) h3; \
intermediate[7] += h3 >> 32u; \
\
intermediate [1] += intermediate[0] >> 32u; \
intermediate [0] = (uint32_t) intermediate[0]; \
intermediate [2] += intermediate[1] >> 32u; \
intermediate [1] = (uint32_t) intermediate[1]; \
intermediate [3] += intermediate[2] >> 32u; \
intermediate [2] = (uint32_t) intermediate[2]; \
intermediate [4] += intermediate[3] >> 32u; \
intermediate [3] = (uint32_t) intermediate[3]; \
intermediate [5] += intermediate[4] >> 32u; \
intermediate [4] = (uint32_t) intermediate[4]; \
intermediate [6] += intermediate[5] >> 32u; \
intermediate [5] = (uint32_t) intermediate[5]; \
intermediate [7] += intermediate[6] >> 32u; \
intermediate [6] = (uint32_t) intermediate[6]; \
intermediate[1] += intermediate[0] >> 32u; \
intermediate[0] = (uint32_t) intermediate[0]; \
intermediate[2] += intermediate[1] >> 32u; \
intermediate[1] = (uint32_t) intermediate[1]; \
intermediate[3] += intermediate[2] >> 32u; \
intermediate[2] = (uint32_t) intermediate[2]; \
intermediate[4] += intermediate[3] >> 32u; \
intermediate[3] = (uint32_t) intermediate[3]; \
intermediate[5] += intermediate[4] >> 32u; \
intermediate[4] = (uint32_t) intermediate[4]; \
intermediate[6] += intermediate[5] >> 32u; \
intermediate[5] = (uint32_t) intermediate[5]; \
intermediate[7] += intermediate[6] >> 32u; \
intermediate[6] = (uint32_t) intermediate[6]; \
\
name[0] = intermediate [4]; \
name[1] = intermediate [5]; \
name[2] = intermediate [6]; \
name[3] = intermediate [7]; \
name[0] = intermediate[4]; \
name[1] = intermediate[5]; \
name[2] = intermediate[6]; \
name[3] = intermediate[7]; \
\
ECMA_NUMBER_CONVERSION_128BIT_INTEGER_CHECK_PARTS_ARE_32BIT (name); \
}
@@ -342,7 +342,7 @@ ecma_zt_string_to_number (const ecma_char_t *str_p) /**< zero-terminated string
const ecma_char_t hex_upper_digits_range[10] = { 'A', 'F' };
const ecma_char_t hex_x_chars[2] = { 'x', 'X' };
const ecma_char_t white_space[2] = { ' ', '\n' };
const ecma_char_t e_chars [2] = { 'e', 'E' };
const ecma_char_t e_chars[2] = { 'e', 'E' };
const ecma_char_t plus_char = '+';
const ecma_char_t minus_char = '-';
const ecma_char_t dot_char = '.';
@@ -393,8 +393,8 @@ ecma_zt_string_to_number (const ecma_char_t *str_p) /**< zero-terminated string
{
int32_t digit_value;
if (*iter_p >= dec_digits_range [0]
&& *iter_p <= dec_digits_range [1])
if (*iter_p >= dec_digits_range[0]
&& *iter_p <= dec_digits_range[1])
{
digit_value = (*iter_p - dec_digits_range[0]);
}
@@ -464,8 +464,8 @@ ecma_zt_string_to_number (const ecma_char_t *str_p) /**< zero-terminated string
{
int32_t digit_value;
if (*begin_p >= dec_digits_range [0]
&& *begin_p <= dec_digits_range [1])
if (*begin_p >= dec_digits_range[0]
&& *begin_p <= dec_digits_range[1])
{
digit_value = (*begin_p - dec_digits_range[0]);
}
@@ -502,8 +502,8 @@ ecma_zt_string_to_number (const ecma_char_t *str_p) /**< zero-terminated string
{
int32_t digit_value;
if (*begin_p >= dec_digits_range [0]
&& *begin_p <= dec_digits_range [1])
if (*begin_p >= dec_digits_range[0]
&& *begin_p <= dec_digits_range[1])
{
digit_value = (*begin_p - dec_digits_range[0]);
}
@@ -556,8 +556,8 @@ ecma_zt_string_to_number (const ecma_char_t *str_p) /**< zero-terminated string
{
int32_t digit_value;
if (*begin_p >= dec_digits_range [0]
&& *begin_p <= dec_digits_range [1])
if (*begin_p >= dec_digits_range[0]
&& *begin_p <= dec_digits_range[1])
{
digit_value = (*begin_p - dec_digits_range[0]);
}
@@ -1120,7 +1120,7 @@ ecma_number_to_zt_string (ecma_number_t num, /**< ecma-number */
ssize_t buffer_size) /**< size of buffer */
{
const ecma_char_t digits[10] = { '0', '1', '2', '3', '4', '5', '6', '7', '8', '9' };
const ecma_char_t e_chars [2] = { 'e', 'E' };
const ecma_char_t e_chars[2] = { 'e', 'E' };
const ecma_char_t plus_char = '+';
const ecma_char_t minus_char = '-';
const ecma_char_t dot_char = '.';
@@ -1324,12 +1324,12 @@ ecma_number_to_zt_string (ecma_number_t num, /**< ecma-number */
for (int32_t i = 0; i < n - k; i++)
{
*--dst_p = digits [0];
*--dst_p = digits[0];
}
for (int32_t i = 0; i < k; i++)
{
*--dst_p = digits [s % 10];
*--dst_p = digits[s % 10];
s /= 10;
}
}
@@ -1343,7 +1343,7 @@ ecma_number_to_zt_string (ecma_number_t num, /**< ecma-number */
for (int32_t i = 0; i < k - n; i++)
{
*--dst_p = digits [s % 10];
*--dst_p = digits[s % 10];
s /= 10;
}
@@ -1351,7 +1351,7 @@ ecma_number_to_zt_string (ecma_number_t num, /**< ecma-number */
for (int32_t i = 0; i < n; i++)
{
*--dst_p = digits [s % 10];
*--dst_p = digits[s % 10];
s /= 10;
}
}
@@ -1365,13 +1365,13 @@ ecma_number_to_zt_string (ecma_number_t num, /**< ecma-number */
for (int32_t i = 0; i < k; i++)
{
*--dst_p = digits [s % 10];
*--dst_p = digits[s % 10];
s /= 10;
}
for (int32_t i = 0; i < -n; i++)
{
*--dst_p = digits [0];
*--dst_p = digits[0];
}
*--dst_p = dot_char;
@@ -1384,7 +1384,7 @@ ecma_number_to_zt_string (ecma_number_t num, /**< ecma-number */
// 9.
JERRY_ASSERT ((ssize_t) sizeof (ecma_char_t) <= buffer_size);
*dst_p++ = digits [s % 10];
*dst_p++ = digits[s % 10];
s /= 10;
}
else
@@ -1395,7 +1395,7 @@ ecma_number_to_zt_string (ecma_number_t num, /**< ecma-number */
for (int32_t i = 0; i < k - 1; i++)
{
*--dst_p = digits [s % 10];
*--dst_p = digits[s % 10];
s /= 10;
}
@@ -1415,7 +1415,7 @@ ecma_number_to_zt_string (ecma_number_t num, /**< ecma-number */
if (t == 0)
{
JERRY_ASSERT ((ssize_t) sizeof (ecma_char_t) * (dst_p - buffer_p + 1) <= buffer_size);
*dst_p++ = digits [0];
*dst_p++ = digits[0];
}
else
{
@@ -1431,7 +1431,7 @@ ecma_number_to_zt_string (ecma_number_t num, /**< ecma-number */
while (t_mod != 0)
{
JERRY_ASSERT ((ssize_t) sizeof (ecma_char_t) * (dst_p - buffer_p + 1) <= buffer_size);
*dst_p++ = digits [t / t_mod];
*dst_p++ = digits[t / t_mod];
t -= (t / t_mod) * t_mod;
t_mod /= 10;