/* +----------------------------------------------------------------------+ | Copyright (c) The PHP Group | +----------------------------------------------------------------------+ | This source file is subject to version 3.01 of the PHP license, | | that is bundled with this package in the file LICENSE, and is | | available through the world-wide-web at the following url: | | https://www.php.net/license/3_01.txt | | If you did not receive a copy of the PHP license and are unable to | | obtain it through the world-wide-web, please send a note to | | license@php.net so we can mail you a copy immediately. | +----------------------------------------------------------------------+ | Author: Stig S�ther Bakken | +----------------------------------------------------------------------+ */ #include /* modf() */ #include "php.h" #include "ext/standard/head.h" #include "php_string.h" #include "zend_execute.h" #include #include #ifdef ZTS #include "ext/standard/php_string.h" #define LCONV_DECIMAL_POINT (*lconv.decimal_point) #else #define LCONV_DECIMAL_POINT (*lconv->decimal_point) #endif #define ALIGN_LEFT 0 #define ALIGN_RIGHT 1 #define ADJ_WIDTH 1 #define ADJ_PRECISION 2 #define NUM_BUF_SIZE 500 #define FLOAT_PRECISION 6 #define MAX_FLOAT_PRECISION 53 #if 0 /* trick to control varargs functions through cpp */ # define PRINTF_DEBUG(arg) php_printf arg #else # define PRINTF_DEBUG(arg) #endif static const char hexchars[] = "0123456789abcdef"; static const char HEXCHARS[] = "0123456789ABCDEF"; /* php_spintf_appendchar() {{{ */ inline static void php_sprintf_appendchar(zend_string **buffer, size_t *pos, char add) { if ((*pos + 1) >= ZSTR_LEN(*buffer)) { PRINTF_DEBUG(("%s(): ereallocing buffer to %d bytes\n", get_active_function_name(), ZSTR_LEN(*buffer))); *buffer = zend_string_extend(*buffer, ZSTR_LEN(*buffer) << 1, 0); } PRINTF_DEBUG(("sprintf: appending '%c', pos=\n", add, *pos)); ZSTR_VAL(*buffer)[(*pos)++] = add; } /* }}} */ /* php_spintf_appendchar() {{{ */ inline static void php_sprintf_appendchars(zend_string **buffer, size_t *pos, char *add, size_t len) { if ((*pos + len) >= ZSTR_LEN(*buffer)) { size_t nlen = ZSTR_LEN(*buffer); PRINTF_DEBUG(("%s(): ereallocing buffer to %d bytes\n", get_active_function_name(), ZSTR_LEN(*buffer))); do { nlen = nlen << 1; } while ((*pos + len) >= nlen); *buffer = zend_string_extend(*buffer, nlen, 0); } PRINTF_DEBUG(("sprintf: appending \"%s\", pos=\n", add, *pos)); memcpy(ZSTR_VAL(*buffer) + (*pos), add, len); *pos += len; } /* }}} */ /* php_spintf_appendstring() {{{ */ inline static void php_sprintf_appendstring(zend_string **buffer, size_t *pos, char *add, size_t min_width, size_t max_width, char padding, size_t alignment, size_t len, bool neg, int expprec, int always_sign) { size_t npad; size_t req_size; size_t copy_len; size_t m_width; copy_len = (expprec ? MIN(max_width, len) : len); npad = (min_width < copy_len) ? 0 : min_width - copy_len; PRINTF_DEBUG(("sprintf: appendstring(%x, %d, %d, \"%s\", %d, '%c', %d)\n", *buffer, *pos, ZSTR_LEN(*buffer), add, min_width, padding, alignment)); m_width = MAX(min_width, copy_len); if(m_width > INT_MAX - *pos - 1) { zend_error_noreturn(E_ERROR, "Field width %zd is too long", m_width); } req_size = *pos + m_width + 1; if (req_size > ZSTR_LEN(*buffer)) { size_t size = ZSTR_LEN(*buffer); while (req_size > size) { if (size > ZEND_SIZE_MAX/2) { zend_error_noreturn(E_ERROR, "Field width %zd is too long", req_size); } size <<= 1; } PRINTF_DEBUG(("sprintf ereallocing buffer to %d bytes\n", size)); *buffer = zend_string_extend(*buffer, size, 0); } if (alignment == ALIGN_RIGHT) { if ((neg || always_sign) && padding=='0') { ZSTR_VAL(*buffer)[(*pos)++] = (neg) ? '-' : '+'; add++; len--; copy_len--; } while (npad-- > 0) { ZSTR_VAL(*buffer)[(*pos)++] = padding; } } PRINTF_DEBUG(("sprintf: appending \"%s\"\n", add)); memcpy(&ZSTR_VAL(*buffer)[*pos], add, copy_len + 1); *pos += copy_len; if (alignment == ALIGN_LEFT) { while (npad--) { ZSTR_VAL(*buffer)[(*pos)++] = padding; } } } /* }}} */ /* php_spintf_appendint() {{{ */ inline static void php_sprintf_appendint(zend_string **buffer, size_t *pos, zend_long number, size_t width, char padding, size_t alignment, int always_sign) { char numbuf[NUM_BUF_SIZE]; zend_ulong magn, nmagn; unsigned int i = NUM_BUF_SIZE - 1, neg = 0; PRINTF_DEBUG(("sprintf: appendint(%x, %x, %x, %d, %d, '%c', %d)\n", *buffer, pos, &ZSTR_LEN(*buffer), number, width, padding, alignment)); if (number < 0) { neg = 1; magn = ((zend_ulong) -(number + 1)) + 1; } else { magn = (zend_ulong) number; } /* Can't right-pad 0's on integers */ if(alignment==0 && padding=='0') padding=' '; numbuf[i] = '\0'; do { nmagn = magn / 10; numbuf[--i] = (unsigned char)(magn - (nmagn * 10)) + '0'; magn = nmagn; } while (magn > 0 && i > 1); if (neg) { numbuf[--i] = '-'; } else if (always_sign) { numbuf[--i] = '+'; } PRINTF_DEBUG(("sprintf: appending %d as \"%s\", i=%d\n", number, &numbuf[i], i)); php_sprintf_appendstring(buffer, pos, &numbuf[i], width, 0, padding, alignment, (NUM_BUF_SIZE - 1) - i, neg, 0, always_sign); } /* }}} */ /* php_spintf_appenduint() {{{ */ inline static void php_sprintf_appenduint(zend_string **buffer, size_t *pos, zend_ulong number, size_t width, char padding, size_t alignment) { char numbuf[NUM_BUF_SIZE]; zend_ulong magn, nmagn; unsigned int i = NUM_BUF_SIZE - 1; PRINTF_DEBUG(("sprintf: appenduint(%x, %x, %x, %d, %d, '%c', %d)\n", *buffer, pos, &ZSTR_LEN(*buffer), number, width, padding, alignment)); magn = (zend_ulong) number; /* Can't right-pad 0's on integers */ if (alignment == 0 && padding == '0') padding = ' '; numbuf[i] = '\0'; do { nmagn = magn / 10; numbuf[--i] = (unsigned char)(magn - (nmagn * 10)) + '0'; magn = nmagn; } while (magn > 0 && i > 0); PRINTF_DEBUG(("sprintf: appending %d as \"%s\", i=%d\n", number, &numbuf[i], i)); php_sprintf_appendstring(buffer, pos, &numbuf[i], width, 0, padding, alignment, (NUM_BUF_SIZE - 1) - i, /* neg */ false, 0, 0); } /* }}} */ /* php_spintf_appenddouble() {{{ */ inline static void php_sprintf_appenddouble(zend_string **buffer, size_t *pos, double number, size_t width, char padding, size_t alignment, int precision, int adjust, char fmt, int always_sign ) { char num_buf[NUM_BUF_SIZE]; char *s = NULL; size_t s_len = 0; bool is_negative = false; #ifdef ZTS struct lconv lconv; #else struct lconv *lconv; #endif PRINTF_DEBUG(("sprintf: appenddouble(%x, %x, %x, %f, %d, '%c', %d, %c)\n", *buffer, pos, &ZSTR_LEN(*buffer), number, width, padding, alignment, fmt)); if ((adjust & ADJ_PRECISION) == 0) { precision = FLOAT_PRECISION; } else if (precision > MAX_FLOAT_PRECISION) { php_error_docref(NULL, E_NOTICE, "Requested precision of %d digits was truncated to PHP maximum of %d digits", precision, MAX_FLOAT_PRECISION); precision = MAX_FLOAT_PRECISION; } if (zend_isnan(number)) { is_negative = (number<0); php_sprintf_appendstring(buffer, pos, "NaN", 3, 0, padding, alignment, 3, is_negative, 0, always_sign); return; } if (zend_isinf(number)) { is_negative = (number<0); php_sprintf_appendstring(buffer, pos, "INF", 3, 0, padding, alignment, 3, is_negative, 0, always_sign); return; } switch (fmt) { case 'e': case 'E': case 'f': case 'F': #ifdef ZTS localeconv_r(&lconv); #else lconv = localeconv(); #endif s = php_conv_fp((fmt == 'f')?'F':fmt, number, 0, precision, (fmt == 'f')?LCONV_DECIMAL_POINT:'.', &is_negative, &num_buf[1], &s_len); if (is_negative) { num_buf[0] = '-'; s = num_buf; s_len++; } else if (always_sign) { num_buf[0] = '+'; s = num_buf; s_len++; } break; case 'g': case 'G': case 'h': case 'H': { if (precision == 0) precision = 1; char decimal_point = '.'; if (fmt == 'g' || fmt == 'G') { #ifdef ZTS localeconv_r(&lconv); #else lconv = localeconv(); #endif decimal_point = LCONV_DECIMAL_POINT; } char exp_char = fmt == 'G' || fmt == 'H' ? 'E' : 'e'; /* We use &num_buf[ 1 ], so that we have room for the sign. */ s = zend_gcvt(number, precision, decimal_point, exp_char, &num_buf[1]); is_negative = 0; if (*s == '-') { is_negative = 1; s = &num_buf[1]; } else if (always_sign) { num_buf[0] = '+'; s = num_buf; } s_len = strlen(s); break; } } php_sprintf_appendstring(buffer, pos, s, width, 0, padding, alignment, s_len, is_negative, 0, always_sign); } /* }}} */ /* php_spintf_appendd2n() {{{ */ inline static void php_sprintf_append2n(zend_string **buffer, size_t *pos, zend_long number, size_t width, char padding, size_t alignment, int n, const char *chartable, int expprec) { char numbuf[NUM_BUF_SIZE]; zend_ulong num; zend_ulong i = NUM_BUF_SIZE - 1; int andbits = (1 << n) - 1; PRINTF_DEBUG(("sprintf: append2n(%x, %x, %x, %d, %d, '%c', %d, %d, %x)\n", *buffer, pos, &ZSTR_LEN(*buffer), number, width, padding, alignment, n, chartable)); PRINTF_DEBUG(("sprintf: append2n 2^%d andbits=%x\n", n, andbits)); num = (zend_ulong) number; numbuf[i] = '\0'; do { numbuf[--i] = chartable[(num & andbits)]; num >>= n; } while (num > 0); php_sprintf_appendstring(buffer, pos, &numbuf[i], width, 0, padding, alignment, (NUM_BUF_SIZE - 1) - i, /* neg */ false, expprec, 0); } /* }}} */ /* php_spintf_getnumber() {{{ */ inline static int php_sprintf_getnumber(char **buffer, size_t *len) { char *endptr; zend_long num = ZEND_STRTOL(*buffer, &endptr, 10); size_t i; if (endptr != NULL) { i = (endptr - *buffer); *len -= i; *buffer = endptr; } PRINTF_DEBUG(("sprintf_getnumber: number was %d bytes long\n", i)); if (num >= INT_MAX || num < 0) { return -1; } else { return (int) num; } } /* }}} */ #define ARG_NUM_NEXT -1 #define ARG_NUM_INVALID -2 int php_sprintf_get_argnum(char **format, size_t *format_len) { char *temppos = *format; while (isdigit((int) *temppos)) temppos++; if (*temppos != '$') { return ARG_NUM_NEXT; } int argnum = php_sprintf_getnumber(format, format_len); if (argnum <= 0) { zend_value_error("Argument number specifier must be greater than zero and less than %d", INT_MAX); return ARG_NUM_INVALID; } (*format)++; /* skip the '$' */ (*format_len)--; return argnum - 1; } /* php_formatted_print() {{{ * New sprintf implementation for PHP. * * Modifiers: * * " " pad integers with spaces * "-" left adjusted field * n field size * "."n precision (floats only) * "+" Always place a sign (+ or -) in front of a number * * Type specifiers: * * "%" literal "%", modifiers are ignored. * "b" integer argument is printed as binary * "c" integer argument is printed as a single character * "d" argument is an integer * "f" the argument is a float * "o" integer argument is printed as octal * "s" argument is a string * "x" integer argument is printed as lowercase hexadecimal * "X" integer argument is printed as uppercase hexadecimal * * nb_additional_parameters is used for throwing errors: * - -1: ValueError is thrown (for vsprintf where args originates from an array) * - 0 or more: ArgumentCountError is thrown */ static zend_string * php_formatted_print(char *format, size_t format_len, zval *args, int argc, int nb_additional_parameters) { size_t size = 240, outpos = 0; int alignment, currarg, adjusting, argnum, width, precision; char *temppos, padding; zend_string *result; int always_sign; int max_missing_argnum = -1; result = zend_string_alloc(size, 0); currarg = 0; argnum = 0; while (format_len) { int expprec; zval *tmp; temppos = memchr(format, '%', format_len); if (!temppos) { php_sprintf_appendchars(&result, &outpos, format, format_len); break; } else if (temppos != format) { php_sprintf_appendchars(&result, &outpos, format, temppos - format); format_len -= temppos - format; format = temppos; } format++; /* skip the '%' */ format_len--; if (*format == '%') { php_sprintf_appendchar(&result, &outpos, '%'); format++; format_len--; } else { /* starting a new format specifier, reset variables */ alignment = ALIGN_RIGHT; adjusting = 0; padding = ' '; always_sign = 0; expprec = 0; PRINTF_DEBUG(("sprintf: first looking at '%c', inpos=%d\n", *format, format - Z_STRVAL_P(z_format))); if (isalpha((int)*format)) { width = precision = 0; argnum = ARG_NUM_NEXT; } else { /* first look for argnum */ argnum = php_sprintf_get_argnum(&format, &format_len); if (argnum == ARG_NUM_INVALID) { goto fail; } /* after argnum comes modifiers */ PRINTF_DEBUG(("sprintf: looking for modifiers\n" "sprintf: now looking at '%c', inpos=%d\n", *format, format - Z_STRVAL_P(z_format))); for (;; format++, format_len--) { if (*format == ' ' || *format == '0') { padding = *format; } else if (*format == '-') { alignment = ALIGN_LEFT; /* space padding, the default */ } else if (*format == '+') { always_sign = 1; } else if (*format == '\'') { if (format_len > 1) { format++; format_len--; padding = *format; } else { zend_value_error("Missing padding character"); goto fail; } } else { PRINTF_DEBUG(("sprintf: end of modifiers\n")); break; } } PRINTF_DEBUG(("sprintf: padding='%c'\n", padding)); PRINTF_DEBUG(("sprintf: alignment=%s\n", (alignment == ALIGN_LEFT) ? "left" : "right")); /* after modifiers comes width */ if (*format == '*') { format++; format_len--; int width_argnum = php_sprintf_get_argnum(&format, &format_len); if (width_argnum == ARG_NUM_INVALID) { goto fail; } if (width_argnum == ARG_NUM_NEXT) { width_argnum = currarg++; } if (width_argnum >= argc) { max_missing_argnum = MAX(max_missing_argnum, width_argnum); continue; } tmp = &args[width_argnum]; ZVAL_DEREF(tmp); if (Z_TYPE_P(tmp) != IS_LONG) { zend_value_error("Width must be an integer"); goto fail; } if (Z_LVAL_P(tmp) < 0 || Z_LVAL_P(tmp) > INT_MAX) { zend_value_error("Width must be greater than zero and less than %d", INT_MAX); goto fail; } width = Z_LVAL_P(tmp); adjusting |= ADJ_WIDTH; } else if (isdigit((int)*format)) { PRINTF_DEBUG(("sprintf: getting width\n")); if ((width = php_sprintf_getnumber(&format, &format_len)) < 0) { zend_value_error("Width must be greater than zero and less than %d", INT_MAX); goto fail; } adjusting |= ADJ_WIDTH; } else { width = 0; } PRINTF_DEBUG(("sprintf: width=%d\n", width)); /* after width and argnum comes precision */ if (*format == '.') { format++; format_len--; PRINTF_DEBUG(("sprintf: getting precision\n")); if (*format == '*') { format++; format_len--; int prec_argnum = php_sprintf_get_argnum(&format, &format_len); if (prec_argnum == ARG_NUM_INVALID) { goto fail; } if (prec_argnum == ARG_NUM_NEXT) { prec_argnum = currarg++; } if (prec_argnum >= argc) { max_missing_argnum = MAX(max_missing_argnum, prec_argnum); continue; } tmp = &args[prec_argnum]; ZVAL_DEREF(tmp); if (Z_TYPE_P(tmp) != IS_LONG) { zend_value_error("Precision must be an integer"); goto fail; } if (Z_LVAL_P(tmp) < -1 || Z_LVAL_P(tmp) > INT_MAX) { zend_value_error("Precision must be between -1 and %d", INT_MAX); goto fail; } precision = Z_LVAL_P(tmp); adjusting |= ADJ_PRECISION; expprec = 1; } else if (isdigit((int)*format)) { if ((precision = php_sprintf_getnumber(&format, &format_len)) < 0) { zend_value_error("Precision must be greater than zero and less than %d", INT_MAX); goto fail; } adjusting |= ADJ_PRECISION; expprec = 1; } else { precision = 0; } } else { precision = 0; } PRINTF_DEBUG(("sprintf: precision=%d\n", precision)); } if (*format == 'l') { format++; format_len--; } PRINTF_DEBUG(("sprintf: format character='%c'\n", *format)); if (argnum == ARG_NUM_NEXT) { argnum = currarg++; } if (argnum >= argc) { max_missing_argnum = MAX(max_missing_argnum, argnum); continue; } if (expprec && precision == -1 && *format != 'g' && *format != 'G' && *format != 'h' && *format != 'H') { zend_value_error("Precision -1 is only supported for %%g, %%G, %%h and %%H"); goto fail; } /* now we expect to find a type specifier */ tmp = &args[argnum]; switch (*format) { case 's': { zend_string *t; zend_string *str = zval_get_tmp_string(tmp, &t); php_sprintf_appendstring(&result, &outpos, ZSTR_VAL(str), width, precision, padding, alignment, ZSTR_LEN(str), /* neg */ false, expprec, 0); zend_tmp_string_release(t); break; } case 'd': php_sprintf_appendint(&result, &outpos, zval_get_long(tmp), width, padding, alignment, always_sign); break; case 'u': php_sprintf_appenduint(&result, &outpos, zval_get_long(tmp), width, padding, alignment); break; case 'e': case 'E': case 'f': case 'F': case 'g': case 'G': case 'h': case 'H': php_sprintf_appenddouble(&result, &outpos, zval_get_double(tmp), width, padding, alignment, precision, adjusting, *format, always_sign ); break; case 'c': php_sprintf_appendchar(&result, &outpos, (char) zval_get_long(tmp)); break; case 'o': php_sprintf_append2n(&result, &outpos, zval_get_long(tmp), width, padding, alignment, 3, hexchars, expprec); break; case 'x': php_sprintf_append2n(&result, &outpos, zval_get_long(tmp), width, padding, alignment, 4, hexchars, expprec); break; case 'X': php_sprintf_append2n(&result, &outpos, zval_get_long(tmp), width, padding, alignment, 4, HEXCHARS, expprec); break; case 'b': php_sprintf_append2n(&result, &outpos, zval_get_long(tmp), width, padding, alignment, 1, hexchars, expprec); break; case '%': php_sprintf_appendchar(&result, &outpos, '%'); break; case '\0': if (!format_len) { zend_value_error("Missing format specifier at end of string"); goto fail; } ZEND_FALLTHROUGH; default: zend_value_error("Unknown format specifier \"%c\"", *format); goto fail; } format++; format_len--; } } if (max_missing_argnum >= 0) { if (nb_additional_parameters == -1) { zend_value_error("The arguments array must contain %d items, %d given", max_missing_argnum + 1, argc); } else { zend_argument_count_error("%d arguments are required, %d given", max_missing_argnum + nb_additional_parameters + 1, argc + nb_additional_parameters); } goto fail; } /* possibly, we have to make sure we have room for the terminating null? */ ZSTR_VAL(result)[outpos]=0; ZSTR_LEN(result) = outpos; return result; fail: zend_string_efree(result); return NULL; } /* }}} */ /* php_formatted_print_get_array() {{{ */ static zval *php_formatted_print_get_array(zend_array *array, int *argc) { zval *args, *zv; int n; n = zend_hash_num_elements(array); args = (zval *)safe_emalloc(n, sizeof(zval), 0); n = 0; ZEND_HASH_FOREACH_VAL(array, zv) { ZVAL_COPY_VALUE(&args[n], zv); n++; } ZEND_HASH_FOREACH_END(); *argc = n; return args; } /* }}} */ /* {{{ Return a formatted string */ PHP_FUNCTION(sprintf) { zend_string *result; char *format; size_t format_len; zval *args; int argc; ZEND_PARSE_PARAMETERS_START(1, -1) Z_PARAM_STRING(format, format_len) Z_PARAM_VARIADIC('*', args, argc) ZEND_PARSE_PARAMETERS_END(); result = php_formatted_print(format, format_len, args, argc, 1); if (result == NULL) { RETURN_THROWS(); } RETVAL_STR(result); } /* }}} */ /* {{{ Return a formatted string */ PHP_FUNCTION(vsprintf) { zend_string *result; char *format; size_t format_len; zval *args; zend_array *array; int argc; ZEND_PARSE_PARAMETERS_START(2, 2) Z_PARAM_STRING(format, format_len) Z_PARAM_ARRAY_HT(array) ZEND_PARSE_PARAMETERS_END(); args = php_formatted_print_get_array(array, &argc); result = php_formatted_print(format, format_len, args, argc, -1); efree(args); if (result == NULL) { RETURN_THROWS(); } RETVAL_STR(result); } /* }}} */ /* {{{ Output a formatted string */ PHP_FUNCTION(printf) { zend_string *result; size_t rlen; char *format; size_t format_len; zval *args; int argc; ZEND_PARSE_PARAMETERS_START(1, -1) Z_PARAM_STRING(format, format_len) Z_PARAM_VARIADIC('*', args, argc) ZEND_PARSE_PARAMETERS_END(); result = php_formatted_print(format, format_len, args, argc, 1); if (result == NULL) { RETURN_THROWS(); } rlen = PHPWRITE(ZSTR_VAL(result), ZSTR_LEN(result)); zend_string_efree(result); RETURN_LONG(rlen); } /* }}} */ /* {{{ Output a formatted string */ PHP_FUNCTION(vprintf) { zend_string *result; size_t rlen; char *format; size_t format_len; zval *args; zend_array *array; int argc; ZEND_PARSE_PARAMETERS_START(2, 2) Z_PARAM_STRING(format, format_len) Z_PARAM_ARRAY_HT(array) ZEND_PARSE_PARAMETERS_END(); args = php_formatted_print_get_array(array, &argc); result = php_formatted_print(format, format_len, args, argc, -1); efree(args); if (result == NULL) { RETURN_THROWS(); } rlen = PHPWRITE(ZSTR_VAL(result), ZSTR_LEN(result)); zend_string_efree(result); RETURN_LONG(rlen); } /* }}} */ /* {{{ Output a formatted string into a stream */ PHP_FUNCTION(fprintf) { php_stream *stream; char *format; size_t format_len; zval *arg1, *args; int argc; zend_string *result; ZEND_PARSE_PARAMETERS_START(2, -1) Z_PARAM_RESOURCE(arg1) Z_PARAM_STRING(format, format_len) Z_PARAM_VARIADIC('*', args, argc) ZEND_PARSE_PARAMETERS_END(); php_stream_from_zval(stream, arg1); result = php_formatted_print(format, format_len, args, argc, 2); if (result == NULL) { RETURN_THROWS(); } php_stream_write(stream, ZSTR_VAL(result), ZSTR_LEN(result)); RETVAL_LONG(ZSTR_LEN(result)); zend_string_efree(result); } /* }}} */ /* {{{ Output a formatted string into a stream */ PHP_FUNCTION(vfprintf) { php_stream *stream; char *format; size_t format_len; zval *arg1, *args; zend_array *array; int argc; zend_string *result; ZEND_PARSE_PARAMETERS_START(3, 3) Z_PARAM_RESOURCE(arg1) Z_PARAM_STRING(format, format_len) Z_PARAM_ARRAY_HT(array) ZEND_PARSE_PARAMETERS_END(); php_stream_from_zval(stream, arg1); args = php_formatted_print_get_array(array, &argc); result = php_formatted_print(format, format_len, args, argc, -1); efree(args); if (result == NULL) { RETURN_THROWS(); } php_stream_write(stream, ZSTR_VAL(result), ZSTR_LEN(result)); RETVAL_LONG(ZSTR_LEN(result)); zend_string_efree(result); } /* }}} */