/* * Copyright (c) 2018-2020, Andreas Kling * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, this * list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #pragma once #include #include #include #include #include #include namespace PrintfImplementation { static constexpr const char* printf_hex_digits_lower = "0123456789abcdef"; static constexpr const char* printf_hex_digits_upper = "0123456789ABCDEF"; #ifdef __serenity__ extern "C" size_t strlen(const char*); #else # include #endif template ALWAYS_INLINE int print_hex(PutChFunc putch, char*& bufptr, T number, bool upper_case, bool alternate_form, bool left_pad, bool zero_pad, u8 field_width) { int ret = 0; int digits = 0; for (T n = number; n > 0; n >>= 4) ++digits; if (digits == 0) digits = 1; if (left_pad) { int stop_at = field_width - digits; if (alternate_form) stop_at -= 2; while (ret < stop_at) { putch(bufptr, ' '); ++ret; } } if (alternate_form) { putch(bufptr, '0'); putch(bufptr, 'x'); ret += 2; field_width += 2; } if (zero_pad) { while (ret < field_width - digits) { putch(bufptr, '0'); ++ret; } } if (number == 0) { putch(bufptr, '0'); ++ret; } else { u8 shift_count = digits * 4; while (shift_count) { shift_count -= 4; putch(bufptr, upper_case ? printf_hex_digits_upper[(number >> shift_count) & 0x0f] : printf_hex_digits_lower[(number >> shift_count) & 0x0f]); ++ret; } } return ret; } template ALWAYS_INLINE int print_number(PutChFunc putch, char*& bufptr, u32 number, bool left_pad, bool zero_pad, u32 field_width) { u32 divisor = 1000000000; char ch; char padding = 1; char buf[16]; char* p = buf; for (;;) { ch = '0' + (number / divisor); number %= divisor; if (ch != '0') padding = 0; if (!padding || divisor == 1) *(p++) = ch; if (divisor == 1) break; divisor /= 10; } size_t numlen = p - buf; if (!field_width || field_width < numlen) field_width = numlen; if (!left_pad) { for (unsigned i = 0; i < field_width - numlen; ++i) { putch(bufptr, zero_pad ? '0' : ' '); } } for (unsigned i = 0; i < numlen; ++i) { putch(bufptr, buf[i]); } if (left_pad) { for (unsigned i = 0; i < field_width - numlen; ++i) { putch(bufptr, ' '); } } return field_width; } template ALWAYS_INLINE int print_u64(PutChFunc putch, char*& bufptr, u64 number, bool left_pad, bool zero_pad, u32 field_width) { u64 divisor = 10000000000000000000LLU; char ch; char padding = 1; char buf[16]; char* p = buf; for (;;) { ch = '0' + (number / divisor); number %= divisor; if (ch != '0') padding = 0; if (!padding || divisor == 1) *(p++) = ch; if (divisor == 1) break; divisor /= 10; } size_t numlen = p - buf; if (!field_width || field_width < numlen) field_width = numlen; if (!left_pad) { for (unsigned i = 0; i < field_width - numlen; ++i) { putch(bufptr, zero_pad ? '0' : ' '); } } for (unsigned i = 0; i < numlen; ++i) { putch(bufptr, buf[i]); } if (left_pad) { for (unsigned i = 0; i < field_width - numlen; ++i) { putch(bufptr, ' '); } } return field_width; } template ALWAYS_INLINE int print_double(PutChFunc putch, char*& bufptr, double number, bool left_pad, bool zero_pad, u32 field_width, u32 fraction_length) { int length = 0; if (number < 0) { putch(bufptr, '-'); length++; number = 0 - number; } length = print_u64(putch, bufptr, (i64)number, left_pad, zero_pad, field_width); putch(bufptr, '.'); length++; double fraction = number - (i64)number; for (u32 i = 0; i < fraction_length; ++i) fraction = fraction * 10; return length + print_u64(putch, bufptr, (i64)fraction, false, true, fraction_length); } template ALWAYS_INLINE int print_i64(PutChFunc putch, char*& bufptr, i64 number, bool left_pad, bool zero_pad, u32 field_width) { // FIXME: This won't work if there is padding. ' -17' becomes '- 17'. if (number < 0) { putch(bufptr, '-'); return print_u64(putch, bufptr, 0 - number, left_pad, zero_pad, field_width) + 1; } return print_u64(putch, bufptr, number, left_pad, zero_pad, field_width); } template ALWAYS_INLINE int print_octal_number(PutChFunc putch, char*& bufptr, u32 number, bool left_pad, bool zero_pad, u32 field_width) { u32 divisor = 134217728; char ch; char padding = 1; char buf[32]; char* p = buf; for (;;) { ch = '0' + (number / divisor); number %= divisor; if (ch != '0') padding = 0; if (!padding || divisor == 1) *(p++) = ch; if (divisor == 1) break; divisor /= 8; } size_t numlen = p - buf; if (!field_width || field_width < numlen) field_width = numlen; if (!left_pad) { for (unsigned i = 0; i < field_width - numlen; ++i) { putch(bufptr, zero_pad ? '0' : ' '); } } for (unsigned i = 0; i < numlen; ++i) { putch(bufptr, buf[i]); } if (left_pad) { for (unsigned i = 0; i < field_width - numlen; ++i) { putch(bufptr, ' '); } } return field_width; } template ALWAYS_INLINE int print_string(PutChFunc putch, char*& bufptr, const char* str, size_t len, bool left_pad, size_t field_width, bool dot) { if (!dot && (!field_width || field_width < len)) field_width = len; size_t pad_amount = field_width > len ? field_width - len : 0; if (!left_pad) { for (size_t i = 0; i < pad_amount; ++i) putch(bufptr, ' '); } for (size_t i = 0; i < min(len, field_width); ++i) { putch(bufptr, str[i]); } if (left_pad) { for (size_t i = 0; i < pad_amount; ++i) putch(bufptr, ' '); } return field_width; } template ALWAYS_INLINE int print_signed_number(PutChFunc putch, char*& bufptr, int number, bool left_pad, bool zero_pad, u32 field_width, bool always_sign) { if (number < 0) { putch(bufptr, '-'); return print_number(putch, bufptr, 0 - number, left_pad, zero_pad, field_width) + 1; } if (always_sign) putch(bufptr, '+'); return print_number(putch, bufptr, number, left_pad, zero_pad, field_width) + always_sign; } struct ModifierState { bool left_pad { false }; bool zero_pad { false }; bool dot { false }; unsigned field_width { 0 }; bool has_fraction_length { false }; unsigned fraction_length { 6 }; unsigned long_qualifiers { 0 }; bool size_qualifier { false }; bool alternate_form { 0 }; bool always_sign { false }; }; template typename NextArgument> struct PrintfImpl { ALWAYS_INLINE PrintfImpl(PutChFunc& putch, char*& bufptr, const int& nwritten) : m_bufptr(bufptr) , m_nwritten(nwritten) , m_putch(putch) { } ALWAYS_INLINE int format_s(const ModifierState& state, ArgumentListRefT ap) const { const char* sp = NextArgument()(ap); if (!sp) sp = "(null)"; return print_string(m_putch, m_bufptr, sp, strlen(sp), state.left_pad, state.field_width, state.dot); } ALWAYS_INLINE int format_d(const ModifierState& state, ArgumentListRefT ap) const { if (state.long_qualifiers >= 2) return print_i64(m_putch, m_bufptr, NextArgument()(ap), state.left_pad, state.zero_pad, state.field_width); return print_signed_number(m_putch, m_bufptr, NextArgument()(ap), state.left_pad, state.zero_pad, state.field_width, state.always_sign); } ALWAYS_INLINE int format_i(const ModifierState& state, ArgumentListRefT ap) const { return format_d(state, ap); } ALWAYS_INLINE int format_u(const ModifierState& state, ArgumentListRefT ap) const { if (state.long_qualifiers >= 2) return print_u64(m_putch, m_bufptr, NextArgument()(ap), state.left_pad, state.zero_pad, state.field_width); return print_number(m_putch, m_bufptr, NextArgument()(ap), state.left_pad, state.zero_pad, state.field_width); } ALWAYS_INLINE int format_Q(const ModifierState& state, ArgumentListRefT ap) const { return print_u64(m_putch, m_bufptr, NextArgument()(ap), state.left_pad, state.zero_pad, state.field_width); } ALWAYS_INLINE int format_q(const ModifierState& state, ArgumentListRefT ap) const { return print_hex(m_putch, m_bufptr, NextArgument()(ap), false, false, state.left_pad, state.zero_pad, 16); } ALWAYS_INLINE int format_g(const ModifierState& state, ArgumentListRefT ap) const { return format_f(state, ap); } ALWAYS_INLINE int format_f(const ModifierState& state, ArgumentListRefT ap) const { return print_double(m_putch, m_bufptr, NextArgument()(ap), state.left_pad, state.zero_pad, state.field_width, state.fraction_length); } ALWAYS_INLINE int format_o(const ModifierState& state, ArgumentListRefT ap) const { if (state.alternate_form) m_putch(m_bufptr, '0'); return (state.alternate_form ? 1 : 0) + print_octal_number(m_putch, m_bufptr, NextArgument()(ap), state.left_pad, state.zero_pad, state.field_width); } ALWAYS_INLINE int format_x(const ModifierState& state, ArgumentListRefT ap) const { if (state.long_qualifiers >= 2) return print_hex(m_putch, m_bufptr, NextArgument()(ap), false, state.alternate_form, state.left_pad, state.zero_pad, state.field_width); return print_hex(m_putch, m_bufptr, NextArgument()(ap), false, state.alternate_form, state.left_pad, state.zero_pad, state.field_width); } ALWAYS_INLINE int format_X(const ModifierState& state, ArgumentListRefT ap) const { if (state.long_qualifiers >= 2) return print_hex(m_putch, m_bufptr, NextArgument()(ap), true, state.alternate_form, state.left_pad, state.zero_pad, state.field_width); return print_hex(m_putch, m_bufptr, NextArgument()(ap), true, state.alternate_form, state.left_pad, state.zero_pad, state.field_width); } ALWAYS_INLINE int format_n(const ModifierState&, ArgumentListRefT ap) const { *NextArgument()(ap) = m_nwritten; return 0; } ALWAYS_INLINE int format_p(const ModifierState&, ArgumentListRefT ap) const { return print_hex(m_putch, m_bufptr, NextArgument()(ap), false, true, false, true, 8); } ALWAYS_INLINE int format_P(const ModifierState&, ArgumentListRefT ap) const { return print_hex(m_putch, m_bufptr, NextArgument()(ap), true, true, false, true, 8); } ALWAYS_INLINE int format_percent(const ModifierState&, ArgumentListRefT) const { m_putch(m_bufptr, '%'); return 1; } ALWAYS_INLINE int format_c(const ModifierState& state, ArgumentListRefT ap) const { char c = NextArgument()(ap); return print_string(m_putch, m_bufptr, &c, 1, state.left_pad, state.field_width, state.dot); } ALWAYS_INLINE int format_unrecognized(char format_op, const char* fmt, const ModifierState&, ArgumentListRefT) const { dbgln("printf_internal: Unimplemented format specifier {} (fmt: {})", format_op, fmt); return 0; } protected: char*& m_bufptr; const int& m_nwritten; PutChFunc& m_putch; }; template struct VaArgNextArgument { ALWAYS_INLINE T operator()(V ap) const { return va_arg(ap, T); } }; #define PRINTF_IMPL_DELEGATE_TO_IMPL(c) \ case* #c: \ ret += impl.format_##c(state, ap); \ break; template typename V> typename Impl = PrintfImpl, typename ArgumentListT = va_list, template())> typename NextArgument = VaArgNextArgument> ALWAYS_INLINE int printf_internal(PutChFunc putch, char* buffer, const char*& fmt, ArgumentListT ap) { int ret = 0; char* bufptr = buffer; Impl impl { putch, bufptr, ret }; for (const char* p = fmt; *p; ++p) { ModifierState state; if (*p == '%' && *(p + 1)) { one_more: ++p; if (*p == '.') { state.dot = true; if (*(p + 1)) goto one_more; } if (*p == '-') { state.left_pad = true; if (*(p + 1)) goto one_more; } if (*p == '+') { state.always_sign = true; if (*(p + 1)) goto one_more; } if (!state.zero_pad && !state.field_width && *p == '0') { state.zero_pad = true; if (*(p + 1)) goto one_more; } if (*p >= '0' && *p <= '9') { if (!state.dot) { state.field_width *= 10; state.field_width += *p - '0'; if (*(p + 1)) goto one_more; } else { if (!state.has_fraction_length) { state.has_fraction_length = true; state.fraction_length = 0; } state.fraction_length *= 10; state.fraction_length += *p - '0'; if (*(p + 1)) goto one_more; } } if (*p == '*') { state.field_width = NextArgument()(ap); if (*(p + 1)) goto one_more; } if (*p == 'l') { ++state.long_qualifiers; if (*(p + 1)) goto one_more; } if (*p == 'z') { state.size_qualifier = true; if (*(p + 1)) goto one_more; } if (*p == '#') { state.alternate_form = true; if (*(p + 1)) goto one_more; } switch (*p) { case '%': ret += impl.format_percent(state, ap); break; PRINTF_IMPL_DELEGATE_TO_IMPL(P); PRINTF_IMPL_DELEGATE_TO_IMPL(Q); PRINTF_IMPL_DELEGATE_TO_IMPL(X); PRINTF_IMPL_DELEGATE_TO_IMPL(c); PRINTF_IMPL_DELEGATE_TO_IMPL(d); #ifndef KERNEL PRINTF_IMPL_DELEGATE_TO_IMPL(f); PRINTF_IMPL_DELEGATE_TO_IMPL(g); #endif PRINTF_IMPL_DELEGATE_TO_IMPL(i); PRINTF_IMPL_DELEGATE_TO_IMPL(n); PRINTF_IMPL_DELEGATE_TO_IMPL(o); PRINTF_IMPL_DELEGATE_TO_IMPL(p); PRINTF_IMPL_DELEGATE_TO_IMPL(q); PRINTF_IMPL_DELEGATE_TO_IMPL(s); PRINTF_IMPL_DELEGATE_TO_IMPL(u); PRINTF_IMPL_DELEGATE_TO_IMPL(x); default: ret += impl.format_unrecognized(*p, fmt, state, ap); break; } } else { putch(bufptr, *p); ++ret; } } return ret; } #undef PRINTF_IMPL_DELEGATE_TO_IMPL } using PrintfImplementation::printf_internal;