Update or add comments to files and functions for use by Doxygen.

git-svn-id: https://edk2.svn.sourceforge.net/svnroot/edk2/trunk/edk2@12139 6f19259b-4bc3-4df7-8a09-765794883524
2025-07-27 07:34:06 +02:00 · 2011-08-15 19:05:36 +00:00 · 2011-08-15 19:05:36 +00:00 · a430bdb132
commit a430bdb132
parent abb4e5f346
11 changed files with 1745 additions and 713 deletions
--- a/StdLib/Include/Ia32/machine/signal.h
+++ b/StdLib/Include/Ia32/machine/signal.h
@ -1,21 +1,21 @@
-/**
+/** @file
-Copyright (c) 2010, Intel Corporation. All rights reserved.<BR>
+    Machine (processor architecture) specific portion of <signal.h>.
 This program and the accompanying materials are licensed and made available under
 the terms and conditions of the BSD License that accompanies this distribution.
 The full text of the license may be found at
 http://opensource.org/licenses/bsd-license.php.
-THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
+    Copyright (c) 2010 - 2011, Intel Corporation. All rights reserved.<BR>
-WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
+    This program and the accompanying materials are licensed and made available under
    the terms and conditions of the BSD License that accompanies this distribution.
    The full text of the license may be found at
    http://opensource.org/licenses/bsd-license.php.
    THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
    WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
 **/
 #ifndef _MACHINE_SIGNAL_H
 #define _MACHINE_SIGNAL_H
 #include  <sys/EfiCdefs.h>
-/** The type sig_atomic_t is the (possibly volatile-qualified) integer type of
+/** The type sig_atomic_t is the type of an object that can be accessed as an
-    an object that can be accessed as an atomic entity, even in the presence
+    atomic entity, even in the presence of asynchronous interrupts.
    of asynchronous interrupts.
 **/
 typedef INTN sig_atomic_t;
--- a/StdLib/Include/locale.h
+++ b/StdLib/Include/locale.h
@ -44,44 +44,97 @@
 #ifndef _LOCALE_H_
 #define _LOCALE_H_
-/** This is a structure containing members pertaining to the formatting of numeric values.
+/** This is a structure containing members pertaining to the formatting and display of numeric values.
-    There is no requirement for members of this structure to be in any particular order.
+    Each member of this structure is commented with its value in the "C" locale.
    The decimal_point member must point to a string with a length greater than zero.
    All other pointer members may point to "" in order to indicate that the value is not available
    in the current locale, or that it is of zero length.  Except for grouping and mon_grouping, the
    strings start and end in the initial shift state.
    The remaining members, of type char, are non-negative numbers or CHAR_MAX, which indicates that
    the value is not available in the current locale.
    Members grouping and mon_grouping point to strings where each element (character) of the string
    indicates the size of the corresponding group of digits and is interpreted as follows:
      - CHAR_MAX  No further grouping is to be performed.
      - 0         The previous element is to be repeatedly used for the remainder of the digits.
      - other     The ISO specification states: "The integer value is the number of digits that
                  compose the current group.  The next element is examined to determine the size
                  of the next group of digits before the current group."  The EDK II implementation
                  interprets this to mean that the groups are specified left-to-right.
    The *_sep_by_space members are interpreted as follows:
      - 0   No space separates the currency symbol and value.
      - 1   If the currency symbol and sign string are adjacent, a space separates them from the
            value; otherwise, a space separates the currency symbol from the value.
      - 2   If the currency symbol and sign string are adjacent, a space separates them;
            otherwise, a space separates the sign string from the value.
    For int_p_sep_by_space and int_n_sep_by_space, the fourth character of int_curr_symbol is
    used instead of a space.
    The values of the *_sign_posn members are interpreted as follows:
      - 0   Parentheses surround the quantity and currency symbol.
      - 1   The sign string precedes the quantity and currency symbol.
      - 2   The sign string succeeds the quantity and currency symbol.
      - 3   The sign string immediately precedes the currency symbol.
      - 4   The sign string immediately succeeds the currency symbol.
 **/
 struct lconv {
-  char  *decimal_point;
+  char  *decimal_point;           /**< "."        Non-monetary decimal-point. */
-  char  *thousands_sep;
+  char  *thousands_sep;           /**< ""         Separates groups of digits before the decimal-point */
-  char  *grouping;
+  char  *grouping;                /**< ""         A string whose elements (characters) indicate the size
-  char  *int_curr_symbol;
+                                                  of each group of digits in formatted nonmonetary quantities. */
-  char  *currency_symbol;
+  char  *int_curr_symbol;         /**< ""         A 4-character string providing the international currency
-  char  *mon_decimal_point;
+                                                  symbol.  The first three characters contain the alphabetic
-  char  *mon_thousands_sep;
+                                                  international currency symbol in accordance with those
-  char  *mon_grouping;
+                                                  specified in ISO 4217.  The fourth character, immediately
-  char  *positive_sign;
+                                                  preceding the null character, is the character used to separate
-  char  *negative_sign;
+                                                  the international currency symbol from the monetary quantity. */
-  char  int_frac_digits;
+  char  *currency_symbol;         /**< ""         The local currency symbol for the current locale. */
-  char  frac_digits;
+  char  *mon_decimal_point;       /**< ""         The decimal point used for monetary values. */
-  char  p_cs_precedes;
+  char  *mon_thousands_sep;       /**< ""         The separator for digit groups preceeding the decimal-point. */
-  char  p_sep_by_space;
+  char  *mon_grouping;            /**< ""         A string, like grouping, for monetary values. */
-  char  n_cs_precedes;
+  char  *positive_sign;           /**< ""         A string to indicate a non-negative monetary value. */
-  char  n_sep_by_space;
+  char  *negative_sign;           /**< ""         A string to indicate a negative monetary value. */
-  char  p_sign_posn;
+  char  int_frac_digits;          /**< CHAR_MAX   The number of digits after the decimal-point for international
-  char  n_sign_posn;
+                                                  monetary values. */
-  char  int_p_cs_precedes;
+  char  frac_digits;              /**< CHAR_MAX   The number of digits after the decimal-point for local
-  char  int_n_cs_precedes;
+                                                  monetary values. */
-  char  int_p_sep_by_space;
+  char  p_cs_precedes;            /**< CHAR_MAX   Set to 1 or 0 if the currency_symbol respectively precedes or
-  char  int_n_sep_by_space;
+                                                  succeeds the value for non-negative local monetary values. */
-  char  int_p_sign_posn;
+  char  p_sep_by_space;           /**< CHAR_MAX   Value specifying the separation between the currency_symbol,
-  char  int_n_sign_posn;
+                                                  the sign string, and the value for non-negative local values. */
  char  n_cs_precedes;            /**< CHAR_MAX   Set to 1 or 0 if the currency_symbol respectively precedes or
                                                  succeeds the value for negative local monetary values. */
  char  n_sep_by_space;           /**< CHAR_MAX   Value specifying the separation between the currency_symbol,
                                                  the sign string, and the value for negative local values. */
  char  p_sign_posn;              /**< CHAR_MAX   Value specifying the positioning of the positive_sign for a
                                                  non-negative local monetary quantity. */
  char  n_sign_posn;              /**< CHAR_MAX   Value specifying the positioning of the negative_sign for a
                                                  negative local monetary quantity. */
  char  int_p_cs_precedes;        /**< CHAR_MAX   Set to 1 or 0 if the currency_symbol respectively precedes or
                                                  succeeds the value for non-negative international monetary values. */
  char  int_n_cs_precedes;        /**< CHAR_MAX   Set to 1 or 0 if the currency_symbol respectively precedes or
                                                  succeeds the value for negative international monetary values. */
  char  int_p_sep_by_space;       /**< CHAR_MAX   Value specifying the separation between the currency_symbol,
                                                  the sign string, and the value for non-negative international values. */
  char  int_n_sep_by_space;       /**< CHAR_MAX   Value specifying the separation between the currency_symbol,
                                                  the sign string, and the value for negative international values. */
  char  int_p_sign_posn;          /**< CHAR_MAX   Value specifying the positioning of the positive_sign for a
                                                  non-negative international monetary quantity. */
  char  int_n_sign_posn;          /**< CHAR_MAX   Value specifying the positioning of the negative_sign for a
                                                  negative international monetary quantity. */
 };
-/** These macros expand to integer expressions suitable for use as the first
+/** @{
-    argument to the setlocale() function.
+    These macros expand to integer expressions suitable for use as the first
    argument (category) to the setlocale() function.
    Only the first six macros are required by the C language specification.
    Implementations are free to extend this list, as has been done with LC_MESSAGES,
    with additional macro definitions, beginning with the characters LC_ and
    an uppercase letter.
@{
 **/
 #define LC_ALL      0   ///< The application's entire locale.
 #define LC_COLLATE  1   ///< Affects the behavior of the strcoll and strxfrm functions.
@ -91,25 +144,51 @@ struct lconv {
 #define LC_TIME     5   ///< Affects the behavior of the strftime and wcsftime functions.
 #define LC_MESSAGES 6
 #define _LC_LAST    7   ///< Number of defined macros. Marks end.
-/// @}
+/*@}*/
 #include  <sys/EfiCdefs.h>
-/** @fn   char *setlocale(int, const char *)
+/** @fn   char *setlocale(int category, const char *locale)
    @brief    The setlocale function is used to retrieve or change parts or all of the current locale.
    @details  If locale is NULL, or the same as the current locale, this function just retrieves the
              values for the specified category in the current locale.  Otherwise, the specified category
              in the current locale is set to the corresponding values from the specified locale and a pointer
              to the new values is returned.
    @param[in]    category    The portion of the current locale to be affected by this call.
                              The LC_ macros list the supported categories and the meaning of each.
    @param[in]    locale      A value of "C" for locale specifies the minimal environment for C translation;
                              A value of "" specifies the native environment, which is "C" for this
                              implementation.  If locale is NULL, the current locale is specified.
    @return     A pointer to the string associated with the specified category for the new locale,
                a pointer to the string associated with the category for the current locale,
                or NULL if category or locale can not be honored.  The return value should not be
                modified by the program, but may be overwritten by subsequent calls to either
                setlocale or localeconv.
 **/
 /** @fn   struct lconv *localeconv(void)
    @brief    The localeconv function returns a pointer to a lconv structure containing the appropriate
              values for the current locale.
    @return   A pointer to a filled-in lconv structure.  The returned structure should not be
              modified by the program, but may be overwritten by subsequent calls to either
              setlocale or localeconv.
 **/
 __BEGIN_DECLS
 #ifdef __SETLOCALE_SOURCE__
-  char    *setlocale(int, const char *);
+  char    *setlocale(int category, const char *locale);
-  char    *__setlocale(int, const char *);
+  char    *__setlocale(int category, const char *locale);
 #else /* !__SETLOCALE_SOURCE__ */
-  char    *setlocale(int, const char *) __RENAME(__setlocale_mb_len_max_32);
+  char    *setlocale(int category, const char *locale) __RENAME(__setlocale_mb_len_max_32);
 #endif /* !__SETLOCALE_SOURCE__ */
 struct lconv  *localeconv(void);
-  char    *__setlocale_mb_len_max_32(int, const char *);
+  char    *__setlocale_mb_len_max_32(int category, const char *locale);
 __END_DECLS
 #endif /* _LOCALE_H_ */
--- a/StdLib/Include/math.h
+++ b/StdLib/Include/math.h
@ -1,6 +1,15 @@
-/*  $NetBSD: math.h,v 1.44 2006/03/25 16:41:11 xtraeme Exp $  */
+/** @file
  Floating-point Math functions and macros.
  Copyright (c) 2010 - 2011, Intel Corporation. All rights reserved.<BR>
  This program and the accompanying materials are licensed and made available under
  the terms and conditions of the BSD License that accompanies this distribution.
  The full text of the license may be found at
  http://opensource.org/licenses/bsd-license.
  THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
  WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
 /*
 * ====================================================
 * Copyright (C) 1993 by Sun Microsystems, Inc. All rights reserved.
 *
@ -9,18 +18,20 @@
 * software is freely granted, provided that this notice
 * is preserved.
 * ====================================================
 */
 /*
 * @(#)fdlibm.h 5.1 93/09/24
 */
    NetBSD: math.h,v 1.44 2006/03/25 16:41:11 xtraeme Exp
    dlibm.h 5.1 93/09/24
 **/
 #ifndef _MATH_H_
 #define _MATH_H_
 #include  <sys/EfiCdefs.h>
-#include <sys/featuretest.h>
+#include  <sys/featuretest.h>
 /** @{
    @brief    These are forward references to unions and macros used internaly
              by the implementation of the math functions and macros.
 **/
 union __float_u {
  unsigned char __dummy[sizeof(float)];
  float __val;
@ -36,8 +47,7 @@ union __long_double_u {
  long double __val;
 };
-#include <machine/math.h>   /* may use __float_u, __double_u,
+#include <machine/math.h>   /* may use __float_u, __double_u, or __long_double_u */
             or __long_double_u */
 #ifdef __HAVE_LONG_DOUBLE
 #define __fpmacro_unary_floating(__name, __arg0)      \
@ -55,64 +65,290 @@ union __long_double_u {
  : __ ## __name ## d (__arg0))
 #endif /* __HAVE_LONG_DOUBLE */
 extern const union __double_u       __infinity;
 extern const union __float_u        __infinityf;
 extern const union __long_double_u  __infinityl;
 /* C99 7.12.3.1 int fpclassify(real-floating x) */
 #define fpclassify(__x) __fpmacro_unary_floating(fpclassify, __x)
 /* C99 7.12.3.3 int isinf(real-floating x) */
 #ifdef __isinf
  #define isinf(__x)  __isinf(__x)
 #else
  #define isinf(__x)  __fpmacro_unary_floating(isinf, __x)
 #endif
 /* C99 7.12.3.4 int isnan(real-floating x) */
 #ifdef __isnan
  #define isnan(__x)  __isnan(__x)
 #else
  #define isnan(__x)  __fpmacro_unary_floating(isnan, __x)
 #endif
 /*@)*/
 /*#############################################################
 * ISO C95
 */
 /**@{
    Double, float, and long double versions, respectively, of HUGE_VAL.
 */
 #define HUGE_VAL  __infinity.__val
 #define HUGE_VALF __infinityf.__val
 #define HUGE_VALL __infinityl.__val
 /*@)*/
 __BEGIN_DECLS
 /*
 * ANSI/POSIX
 */
-/* 7.12#3 HUGE_VAL, HUGELF, HUGE_VALL */
+/** Compute the principal value of the arc cosine of Arg.
-extern const union __double_u __infinity;
+
-#define HUGE_VAL  __infinity.__val
+    @param[in]    Arg   The value to compute the arc cosine of.
    @return   The computed value of the arc cosine of Arg in the interval [0,pi] radians.
              If Arg is not in the interval [-1,+1], errno is set to EDOM.
 **/
 double  acos(double Arg);
 /** Compute the principal value of the arc sine of Arg.
    @param[in]    Arg   The value to compute the arc sine of.
    @return   The computed value of the arc sine of Arg in the interval [-pi/2,+pi/2] radians.
              If Arg is not in the interval [-1,+1], errno is set to EDOM.
 **/
 double  asin(double Arg);
 /** Compute the principal value of the arc tangent of Arg.
    @param[in]    Arg   The value to compute the arc tangent of.
    @return   The computed value of the arc tangent of Arg in the interval [-pi/2,+pi/2] radians.
 **/
 double  atan(double Arg);
 /** Compute the value of the arc tangent of (Num / Denom).
    The sign of both arguments is used to determine the quadrant of the return value.
    @param[in]    Num   The numerator of the value to compute the arc tangent of.
    @param[in]    Denom The denominator of the value to compute the arc tangent of.
    @return   The computed value of the arc tangent of (Num / Denom) in the interval [-pi,+pi] radians.
 **/
 double  atan2(double Num, double Denom);
 /** Compute the value of the cosine of Arg, measured in radians.
    @param[in]    Arg   The value to compute the cosine of.
    @return   The computed value of the cosine of Arg.
 **/
 double  cos(double Arg);
 /** Compute the value of the sine of Arg.
    @param[in]    Arg   The value to compute the sine of.
    @return   The computed value of the sine of Arg.
 **/
 double  sin(double Arg);
 /** Compute the value of the tangent of Arg.
    @param[in]    Arg   The value to compute the tangent of.
    @return   The computed value of the tangent of Arg.
 **/
 double  tan(double Arg);
 /** Compute the value of the hyperbolic cosine of Arg.
    @param[in]    Arg   The value to compute the hyperbolic cosine of.
    @return   The computed value of the hyperbolic cosine of Arg.
              If the magnitude of Arg is too large, errno is set to ERANGE.
 **/
 double  cosh(double Arg);
 /** Compute the value of the hyperbolic sine of Arg.
    @param[in]    Arg   The value to compute the hyperbolic sine of.
    @return   The computed value of the hyperbolic sine of Arg.
              If the magnitude of Arg is too large, errno is set to ERANGE.
 **/
 double  sinh(double Arg);
 /** Compute the value of the hyperbolic tangent of Arg.
    @param[in]    Arg   The value to compute the hyperbolic tangent of.
    @return   The computed value of the hyperbolic tangent of Arg.
 **/
 double  tanh(double Arg);
 /** Compute the base-e exponential of Arg.
    @param[in]    Arg   The value to compute the base-e exponential of.
    @return   The computed value of e**Arg.
              If the magnitude of Arg is too large, errno is set to ERANGE.
 **/
 double  exp(double Arg);
 /** Break a floating-point number into a normalized fraction and an integral power of 2.
    @param[in]    Value   The floating-point value to be broken down.
    @param[out]   Exp     A pointer to an integer object to receive the integral power of 2 exponent.
    @return   The frexp function returns a value R, such that Value == R**Exp.
              If Value is zero, both parts of the result are zero.
 **/
 double  frexp(double Value, int *Exp);
 /** Multiply a floating-point number, Value, by an integral power of 2, Exp.
    @param[in]    Value   The floating-point value to be multiplied.
    @param[out]   Exp     The integral power of 2 to multiply Value by.
    @return   The ldexp function returns a value R, such that R = Value x 2**Exp.
              If a range error occurs, errno will be set to ERANGE.
 **/
 double  ldexp(double Value, int Exp);
 /** Compute the natural logarithm of Arg.
    @param[in]    Arg   The value to compute the natural logarithm of.
    @return   The log function returns log base-e of Arg. If Arg is negative, errno is set to EDOM.
              Otherwise, errno will be set to ERANGE if a range error occurs.
 **/
 double  log(double Arg);
 /** Compute the common (base-10) logarithm of Arg.
    @param[in]    Arg   The value to compute the common logarithm of.
    @return   The log10 function returns log base-10 of Arg. If Arg is negative, errno is set to EDOM.
              Otherwise, errno will be set to ERANGE if Arg is 0.
 **/
 double  log10(double Arg);
 /** Compute the base-2 logarithm of Arg.
    @param[in]    Arg   The value to compute the base-2 logarithm of.
    @return   The log function returns log base-2 of Arg. If Arg is negative, errno is set to EDOM.
              Otherwise, errno will be set to ERANGE if Arg is 0.
 **/
 double  log2(double Arg);
 /** Break Value into integral and fractional parts, each of which has the same type and sign
    as Value.  Store the integral part in the object pointed to by Integ and return the
    fractional part.
    @param[in]    Value   The value to compute the arc cosine of.
    @param[out]   Integ   Pointer to where the integral component is to be stored.
    @return   The fractional part of Value is returned directly while the integral part is
              returned in the location pointed to by Integ.
 **/
 double  modf(double Value, double *Integ);
 /** Compute Value raised to the power Exp.
    @param[in]    Value   The value to be raised.
    @param[in]    Exp     The power Value is to be raised to.
    @return   The pow function returns Value**Exp.  If an error occurs, errno will be set as follows:
                - EDOM: Value is finite and negative and Exp is finite and not an integer.
                - EDOM: Both Value and Exp are zero.
                - EDOM: Value is zero and Exp is less than zero.
 **/
 double  pow(double Value, double Exp);
 /** Compute the non-negative square root of Arg.
    @param[in]    Arg   The value to compute the square root of.
    @return   The square root of Arg.  If Arg is less than zero, errno is set to EDOM.
 **/
 double  sqrt(double Arg);
 /** Compute the smallest integer value not less than Arg.
    @param[in]    Arg   The value to compute the ceiling of.
    @return   The ceiling of Arg expressed as a floating-point number.
 **/
 double  ceil(double Arg);
 /** Compute the absolute value of Arg.
    @param[in]    Arg   The value to compute the absolute value of.
    @return   The absolute value of Arg.
 **/
 double  fabs(double Arg);
 /** Compute the largest integer value not greater than Arg.
    @param[in]    Arg   The value to compute the floor of.
    @return   The largest integer value not greater than Arg, expressed as a floating-point number.
 **/
 double  floor(double);
 /** Compute the floating-point remainder of A1 / A2.
    @param[in]    A1    The dividend.
    @param[in]    A2    The divisor.
    @return   The remainder of A1 / A2 with the same sign as A1.  If A2 is zero, the fmod function
              returns 0.
 **/
 double  fmod(double A1, double A2);
 int finite(double);
 double  expm1(double);
 /**@{
    C99, Posix, or NetBSD functions that are not part of the C95 specification.
 **/
 /*
 * Functions callable from C, intended to support IEEE arithmetic.
 */
 double  copysign(double, double);
 double  scalbn(double, int);
 /*
- * ISO C99
+ * Library implementation
 */
-/* 7.12#3 HUGE_VAL, HUGELF, HUGE_VALL */
+int __fpclassifyf(float);
-extern const union __float_u __infinityf;
+int __fpclassifyd(double);
-#define HUGE_VALF __infinityf.__val
+int __isinff(float);
 int __isinfd(double);
 int __isnanf(float);
 int __isnand(double);
-extern const union __long_double_u __infinityl;
+#ifdef __HAVE_LONG_DOUBLE
-#define HUGE_VALL __infinityl.__val
+  int __fpclassifyl(long double);
  int __isinfl(long double);
  int __isnanl(long double);
 #endif  /* __HAVE_LONG_DOUBLE */
 /*@}*/
-/* 7.12#4 INFINITY */
+__END_DECLS
 #ifdef __INFINITY
 #define INFINITY  __INFINITY  /* float constant which overflows */
 #else
 #define INFINITY  HUGE_VALF /* positive infinity */
 #endif /* __INFINITY */
-/* 7.12#5 NAN: a quiet NaN, if supported */
+/**@{
-#ifdef __HAVE_NANF
+    Extensions provided by NetBSD but not required by the C95 standard.
-extern const union __float_u __nanf;
+**/
 #define NAN   __nanf.__val
 #endif /* __HAVE_NANF */
 /* 7.12#6 number classification macros */
 #define FP_INFINITE 0x00
 #define FP_NAN    0x01
 #define FP_NORMAL 0x02
 #define FP_SUBNORMAL  0x03
 #define FP_ZERO   0x04
 /* NetBSD extensions */
 #define _FP_LOMD  0x80    /* range for machine-specific classes */
 #define _FP_HIMD  0xff
 /*
 * XOPEN/SVID
 */
 #define M_E         2.7182818284590452354   /* e */
 #define M_LOG2E     1.4426950408889634074   /* log 2e */
 #define M_LOG10E    0.43429448190325182765  /* log 10e */
 #define M_LN2       0.69314718055994530942  /* log e2 */
 #define M_LN10      2.30258509299404568402  /* log e10 */
 #define M_PI        3.14159265358979323846  /* pi */
 #define M_PI_2      1.57079632679489661923  /* pi/2 */
 #define M_PI_4      0.78539816339744830962  /* pi/4 */
 #define M_1_PI      0.31830988618379067154  /* 1/pi */
 #define M_2_PI      0.63661977236758134308  /* 2/pi */
 #define M_2_SQRTPI  1.12837916709551257390  /* 2/sqrt(pi) */
 #define M_SQRT2     1.41421356237309504880  /* sqrt(2) */
 #define M_SQRT1_2   0.70710678118654752440  /* 1/sqrt(2) */
 #define MAXFLOAT  ((float)3.40282346638528860e+38)
 extern int signgam;
 enum fdversion {fdlibm_ieee = -1, fdlibm_svid, fdlibm_xopen, fdlibm_posix};
@ -120,7 +356,7 @@ enum fdversion {fdlibm_ieee = -1, fdlibm_svid, fdlibm_xopen, fdlibm_posix};
 #define _LIB_VERSION_TYPE enum fdversion
 #define _LIB_VERSION _fdlib_version
-/* if global variable _LIB_VERSION is not desirable, one may
+/** If global variable _LIB_VERSION is not desirable, one may
 * change the following to be a constant by:
 *  #define _LIB_VERSION_TYPE const enum version
 * In that case, after one initializes the value _LIB_VERSION (see
@ -146,11 +382,7 @@ struct exception {
 #define HUGE    MAXFLOAT
-/*
+/** set X_TLOSS = pi*2**52 **/
 * set X_TLOSS = pi*2**52, which is possibly defined in <values.h>
 * (one may replace the following line by "#include <values.h>")
 */
 #define X_TLOSS   1.41484755040568800000e+16
 #define DOMAIN    1
@ -159,295 +391,52 @@ struct exception {
 #define UNDERFLOW 4
 #define TLOSS     5
 #define PLOSS     6
 /*@}*/
-
+/* 7.12#4 INFINITY */
-__BEGIN_DECLS
+#ifdef __INFINITY
-/*
+#define INFINITY  __INFINITY  /**< float constant which overflows */
 * ANSI/POSIX
 */
 double  acos(double);
 double  asin(double);
 double  atan(double);
 double  atan2(double, double);
 double  cos(double);
 double  sin(double);
 double  tan(double);
 double  cosh(double);
 double  sinh(double);
 double  tanh(double);
 double  exp(double);
 double  frexp(double, int *);
 double  ldexp(double, int);
 double  log(double);
 double  log2(double);
 double  log10(double);
 double  modf(double, double *);
 double  pow(double, double);
 double  sqrt(double);
 double  ceil(double);
 double  fabs(double);
 double  floor(double);
 double  fmod(double, double);
 //#if defined(_XOPEN_SOURCE) || defined(_NETBSD_SOURCE)
 //double  erf(double);
 //double  erfc(double);
 //double  gamma(double);
 //double  hypot(double, double);
 int finite(double);
 //double  j0(double);
 //double  j1(double);
 //double  jn(int, double);
 //double  lgamma(double);
 //double  y0(double);
 //double  y1(double);
 //double  yn(int, double);
 //#if (_XOPEN_SOURCE - 0) >= 500 || defined(_NETBSD_SOURCE)
 //double  acosh(double);
 //double  asinh(double);
 //double  atanh(double);
 //double  cbrt(double);
 double  expm1(double);
 //int ilogb(double);
 //double  log1p(double);
 //double  logb(double);
 //double  nextafter(double, double);
 //double  remainder(double, double);
 //double  rint(double);
 //double  scalb(double, double);
 //#endif /* (_XOPEN_SOURCE - 0) >= 500 || defined(_NETBSD_SOURCE)*/
 //#endif /* _XOPEN_SOURCE || _NETBSD_SOURCE */
 /* 7.12.3.1 int fpclassify(real-floating x) */
 #define fpclassify(__x) __fpmacro_unary_floating(fpclassify, __x)
 #if 0
 /*
 * ISO C99
 */
 #if !defined(_ANSI_SOURCE) && !defined(_POSIX_C_SOURCE) && \
    !defined(_XOPEN_SOURCE) || \
    ((__STDC_VERSION__ - 0) >= 199901L) || \
    ((_POSIX_C_SOURCE - 0) >= 200112L) || \
    ((_XOPEN_SOURCE  - 0) >= 600) || \
    defined(_ISOC99_SOURCE) || defined(_NETBSD_SOURCE)
 /* 7.12.3.2 int isfinite(real-floating x) */
 #define isfinite(__x) __fpmacro_unary_floating(isfinite, __x)
 /* 7.12.3.5 int isnormal(real-floating x) */
 #define isnormal(__x) (fpclassify(__x) == FP_NORMAL)
 /* 7.12.3.6 int signbit(real-floating x) */
 #define signbit(__x)  __fpmacro_unary_floating(signbit, __x)
 /* 7.12.4 trigonometric */
 float acosf(float);
 float asinf(float);
 float atanf(float);
 float atan2f(float, float);
 float cosf(float);
 float sinf(float);
 float tanf(float);
 /* 7.12.5 hyperbolic */
 float acoshf(float);
 float asinhf(float);
 float atanhf(float);
 float coshf(float);
 float sinhf(float);
 float tanhf(float);
 /* 7.12.6 exp / log */
 float expf(float);
 float expm1f(float);
 float frexpf(float, int *);
 int ilogbf(float);
 float ldexpf(float, int);
 float logf(float);
 float log2f(float);
 float log10f(float);
 float log1pf(float);
 float logbf(float);
 float modff(float, float *);
 float scalbnf(float, int);
 /* 7.12.7 power / absolute */
 float cbrtf(float);
 float fabsf(float);
 float hypotf(float, float);
 float powf(float, float);
 float sqrtf(float);
 /* 7.12.8 error / gamma */
 float erff(float);
 float erfcf(float);
 float lgammaf(float);
 /* 7.12.9 nearest integer */
 float ceilf(float);
 float floorf(float);
 float rintf(float);
 double  round(double);
 float roundf(float);
 double  trunc(double);
 float truncf(float);
 long int  lrint(double);
 long int  lrintf(float);
 /* LONGLONG */
 long long int llrint(double);
 /* LONGLONG */
 long long int llrintf(float);
 long int  lround(double);
 long int  lroundf(float);
 /* LONGLONG */
 long long int llround(double);
 /* LONGLONG */
 long long int llroundf(float);
 /* 7.12.10 remainder */
 float fmodf(float, float);
 float remainderf(float, float);
 /* 7.2.11 manipulation */
 float copysignf(float, float);
 double  nan(const char *);
 float nanf(const char *);
 long double nanl(const char *);
 float nextafterf(float, float);
 #endif /* !_ANSI_SOURCE && ... */
 #if defined(_NETBSD_SOURCE)
 #ifndef __cplusplus
 int matherr(struct exception *);
 #endif
 #endif /* _NETBSD_SOURCE */
 /*
 * IEEE Test Vector
 */
 double  significand(double);
 #endif  /* if 0 */
 /* 7.12.3.3 int isinf(real-floating x) */
 #ifdef __isinf
 #define isinf(__x)  __isinf(__x)
 #else
-#define isinf(__x)  __fpmacro_unary_floating(isinf, __x)
+#define INFINITY  HUGE_VALF   /**< positive infinity */
-#endif
+#endif /* __INFINITY */
-/* 7.12.3.4 int isnan(real-floating x) */
+/* 7.12#5 NAN: a quiet NaN, if supported */
-#ifdef __isnan
+#ifdef __HAVE_NANF
-#define isnan(__x)  __isnan(__x)
+extern const union __float_u __nanf;
-#else
+#define NAN   __nanf.__val
-#define isnan(__x)  __fpmacro_unary_floating(isnan, __x)
+#endif /* __HAVE_NANF */
 #endif
-/*
+/**@{
- * Functions callable from C, intended to support IEEE arithmetic.
+    C99 7.12#6 Number classification macros represent mutually exclusive kinds of floating-point
    values.
 **/
 #define FP_INFINITE   0x00
 #define FP_NAN        0x01
 #define FP_NORMAL     0x02
 #define FP_SUBNORMAL  0x03
 #define FP_ZERO       0x04
 /* NetBSD extensions */
 #define _FP_LOMD      0x80    /**< range for machine-specific classes */
 #define _FP_HIMD      0xff
 /*@)*/
 /**@{
 * Constants ala XOPEN/SVID.
 */
-double  copysign(double, double);
+#define M_E         2.7182818284590452354   /**< e */
-double  scalbn(double, int);
+#define M_LOG2E     1.4426950408889634074   /**< log 2e */
-
+#define M_LOG10E    0.43429448190325182765  /**< log 10e */
-#if 0
+#define M_LN2       0.69314718055994530942  /**< log e2 */
-/*
+#define M_LN10      2.30258509299404568402  /**< log e10 */
- * BSD math library entry points
+#define M_PI        3.14159265358979323846  /**< pi */
- */
+#define M_PI_2      1.57079632679489661923  /**< pi/2 */
-#ifndef __MATH_PRIVATE__
+#define M_PI_4      0.78539816339744830962  /**< pi/4 */
-double  cabs(/* struct complex { double r; double i; } */);
+#define M_1_PI      0.31830988618379067154  /**< 1/pi */
-#endif
+#define M_2_PI      0.63661977236758134308  /**< 2/pi */
-double  drem(double, double);
+#define M_2_SQRTPI  1.12837916709551257390  /**< 2/sqrt(pi) */
-
+#define M_SQRT2     1.41421356237309504880  /**< sqrt(2) */
-
+#define M_SQRT1_2   0.70710678118654752440  /**< 1/sqrt(2) */
-#if defined(_NETBSD_SOURCE) || defined(_REENTRANT)
+#define MAXFLOAT  ((float)3.40282346638528860e+38)
-/*
+/*@}*/
 * Reentrant version of gamma & lgamma; passes signgam back by reference
 * as the second argument; user must allocate space for signgam.
 */
 double  gamma_r(double, int *);
 double  lgamma_r(double, int *);
 #endif /* _NETBSD_SOURCE || _REENTRANT */
 #if defined(_NETBSD_SOURCE)
 /* float versions of ANSI/POSIX functions */
 float gammaf(float);
 int isinff(float);
 int isnanf(float);
 int finitef(float);
 float j0f(float);
 float j1f(float);
 float jnf(int, float);
 float y0f(float);
 float y1f(float);
 float ynf(int, float);
 float scalbf(float, float);
 /*
 * float version of IEEE Test Vector
 */
 float significandf(float);
 /*
 * float versions of BSD math library entry points
 */
 #ifndef __MATH_PRIVATE__
 float cabsf(/* struct complex { float r; float i; } */);
 #endif
 float dremf(float, float);
 #endif /* _NETBSD_SOURCE */
 #if defined(_NETBSD_SOURCE) || defined(_REENTRANT)
 /*
 * Float versions of reentrant version of gamma & lgamma; passes
 * signgam back by reference as the second argument; user must
 * allocate space for signgam.
 */
 float gammaf_r(float, int *);
 float lgammaf_r(float, int *);
 #endif /* !... || _REENTRANT */
 #endif  /* if 0 */
 ///*
 // * Library implementation
 // */
 int __fpclassifyf(float);
 int __fpclassifyd(double);
 //int __isfinitef(float);
 //int __isfinited(double);
 int __isinff(float);
 int __isinfd(double);
 int __isnanf(float);
 int __isnand(double);
 //int __signbitf(float);
 //int __signbitd(double);
 //#ifdef __HAVE_LONG_DOUBLE
 int __fpclassifyl(long double);
 //int __isfinitel(long double);
 int __isinfl(long double);
 int __isnanl(long double);
 //int __signbitl(long double);
 //#endif
 __END_DECLS
 #endif /* _MATH_H_ */
--- a/StdLib/Include/setjmp.h
+++ b/StdLib/Include/setjmp.h
@ -1,16 +1,15 @@
 /** @file
-  The header <setjmp.h> defines the macro setjmp, and declares one function
+    This file defines the macro setjmp, and declares the function longjmp
-  and one type, for bypassing the normal function call and return discipline.
+    and the type jmp_buf, for bypassing the normal function call and return discipline.
-Copyright (c) 2010, Intel Corporation. All rights reserved.<BR>
+    Copyright (c) 2010 - 2011, Intel Corporation. All rights reserved.<BR>
-This program and the accompanying materials are licensed and made available under
+    This program and the accompanying materials are licensed and made available under
-the terms and conditions of the BSD License that accompanies this distribution.
+    the terms and conditions of the BSD License that accompanies this distribution.
-The full text of the license may be found at
+    The full text of the license may be found at
-http://opensource.org/licenses/bsd-license.php.
+    http://opensource.org/licenses/bsd-license.
 THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
 WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
    THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
    WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
 **/
 #ifndef _SETJMP_H
 #define _SETJMP_H
@ -40,7 +39,8 @@ typedef BASE_LIBRARY_JUMP_BUFFER jmp_buf[1];
    @return   If the return is from a direct invocation, the setjmp macro
    returns the value zero. If the return is from a call to the longjmp
-    function, the setjmp macro returns a nonzero value.
+    function, the setjmp macro returns a nonzero value based upon the value
    of the second argument to the longjmp function.
 **/
 #define setjmp(env)   (INTN)SetJump((env))
@ -52,7 +52,10 @@ typedef BASE_LIBRARY_JUMP_BUFFER jmp_buf[1];
    macro was within the scope of an identifier with variably modified type and
    execution has left that scope in the interim, the behavior is undefined.
-    After longjmp is completed, program execution continues as if the
+    @param[in]    env     The jump buffer containing the environment to be returned to.
    @param[in]    val     A non-zero value to be returned from setjmp.
    @return     After longjmp is completed, program execution continues as if the
    corresponding invocation of the setjmp macro had just returned the value
    specified by val. The longjmp function cannot cause the setjmp macro to
    return the value 0; if val is 0, the setjmp macro returns the value 1.
--- a/StdLib/Include/signal.h
+++ b/StdLib/Include/signal.h
@ -1,28 +1,25 @@
 /** @file
-  The header <signal.h> declares a type and two functions and defines several
+  This file declares a type and two functions and defines several
  macros, for handling various signals (conditions that may be reported during
  program execution).
-  The UEFI implementation of <signal.h> maps signals onto the UEFI
+    For historical reasons; programs expect signal to be declared
-  event mechanism.
+    in <sys/signal.h>.  The signal function is documented in <sys/signal.h>.
-  An implementation need not generate any of these signals, except as a result
+    The signal function is declared in the C Standard as:<BR>
-  of explicit calls to the raise function. Additional signals and pointers to
+    void (*signal(int sig, void (*func)(int)))(int);
  undeclarable functions, with macro definitions beginning, respectively, with
  the letters SIG and an uppercase letter or with SIG_ and an uppercase letter
  may also be specified by the implementation. The complete set of signals,
  their semantics, and their default handling is implementation-defined; all
  signal numbers shall be positive.
-Copyright (c) 2010 - 2011, Intel Corporation. All rights reserved.<BR>
+    The EDK II implementation of the library or base firmware does not generate
-This program and the accompanying materials are licensed and made available under
+    any of these signals, except as a result of explicit calls to the raise function.
 the terms and conditions of the BSD License that accompanies this distribution.
 The full text of the license may be found at
 http://opensource.org/licenses/bsd-license.php.
-THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
+    Copyright (c) 2010 - 2011, Intel Corporation. All rights reserved.<BR>
-WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
+    This program and the accompanying materials are licensed and made available under
    the terms and conditions of the BSD License that accompanies this distribution.
    The full text of the license may be found at
    http://opensource.org/licenses/bsd-license.
    THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
    WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
 **/
 #ifndef _SIGNAL_H
 #define _SIGNAL_H
@ -36,7 +33,8 @@ WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
    This, possibly machine specific, type is defined in <machine/signal.h>.
 */
-/** The following three macros expand to constant expressions with distinct
+/** @{
    The following three macros expand to constant expressions with distinct
    values that have type compatible with the second argument to, and the
    return value of, the signal function, and whose values compare unequal to
    the address of any declarable function.
@ -44,11 +42,13 @@ WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
 #define SIG_IGN   ((__sighandler_t *) 0)
 #define SIG_DFL   ((__sighandler_t *) 1)
 #define SIG_ERR   ((__sighandler_t *) 3)
 /*@}*/
-/** The following members expand to positive integer constant expressions with
+/** @{
    The following macros expand to positive integer constant expressions with
    type int and distinct values that are the signal numbers, each
    corresponding to the specified condition.
-    Many existing programs expect these to be macros.
+    The C95 specification requires these to be macros.
 **/
 #define SIGINT     __SigInt     ///< receipt of an interactive attention signal
 #define SIGILL     __SigIll     ///< detection of an invalid function image, such as an invalid instruction
@ -66,24 +66,18 @@ WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
 #define SIGPIPE    __SigPipe    ///< Added for Posix timer functions
 #define SIGQUIT    __SigQuit    ///< Added for Posix timer functions
 #define SIG_LAST   __Sig_Last   ///< One more than the largest signal number
 /*@}*/
 __BEGIN_DECLS
 /*  For historical reasons; programs expect signal to be declared
    in <sys/signal.h>.  The function is documented in <sys/signal.h>.
    The function is declared in the C Standard as:<BR>
      void (*signal(int sig, void (*func)(int)))(int);
 */
 /** Send a signal.
    The raise function carries out the actions described for signal,
    in <sys/signal.h>, for the signal sig. If a signal handler is called, the
-    raise function shall not return until after the signal handler does.
+    raise function does not return until after the signal handler does.
    @return   The raise function returns zero if successful,
-              nonzero if unsuccessful.
+              or nonzero if unsuccessful.
 **/
 int raise(int sig);
--- a/StdLib/Include/stdarg.h
+++ b/StdLib/Include/stdarg.h
@ -1,54 +1,53 @@
 /** @file
-  The header <stdarg.h> declares a type and defines three macros, for advancing
+    This header, <stdarg.h>, declares type va_list and defines macros: va_start, va_arg, va_end;
-  through a list of arguments whose number and types are not known to the
+    for advancing through a list of arguments whose number and types are not known to the
-  called function when it is translated.
+    called function when it is translated.
-  A function may be called with a variable number of arguments of varying types.
+    A function may be called with a variable number of arguments of varying types.
-  Its parameter list contains one or more parameters.  The rightmost parameter
+    The rightmost argument plays a special role in the access mechanism, and will
-  plays a special role in the access mechanism, and will be designated paramN
+    be designated paramN in this and subsequent descriptions.
  in this description.
-  The type va_list is a type suitable for holding information needed by the
+    The type va_list is a type suitable for holding information needed by the
-  macros va_start, va_arg, and va_end.  If access to the varying arguments
+    macros va_start, va_arg, and va_end.  If access to the varying arguments
-  is desired, the called function shall declare an object (referred to as ap
+    is desired, the called function shall declare an object (referred to as ap
-  in these descriptions) having type va_list.  The object ap may be passed as
+    in these descriptions) having type va_list.  The object ap may be passed as
-  an argument to another function; if that function invokes the va_arg macro
+    an argument to another function; if the receiving function invokes the va_arg macro
-  with parameter ap, the value of ap in the calling function is indeterminate
+    with parameter ap, the value of ap in the calling function becomes indeterminate
-  and shall be passed to the va_end macro prior to any further reference to ap.
+    and must be passed to the va_end macro prior to any further reference to ap.
-  The va_start and va_arg macros shall be implemented as macros, not as actual
+    The va_start and va_arg macros must be implemented as macros, not as actual
-  functions.  It is unspecified, by the C library standards, whether va_end
+    functions.  The va_start and va_end macros must be invoked in the
-  is a macro or an identifier declared with external linkage.  If a macro
+    function accepting a varying number of arguments, if access to the varying
-  definition is suppressed in order to access an actual function, or a
+    arguments is desired.
  program defines an external identifier with the name va_end, the behavior
  is undefined.  The va_start and va_end macros shall be invoked in the
  function accepting a varying number of arguments, if access to the varying
  arguments is desired.
-Copyright (c) 2010, Intel Corporation. All rights reserved.<BR>
+    Copyright (c) 2010 - 2011, Intel Corporation. All rights reserved.<BR>
-This program and the accompanying materials are licensed and made available under
+    This program and the accompanying materials are licensed and made available under
-the terms and conditions of the BSD License that accompanies this distribution.
+    the terms and conditions of the BSD License that accompanies this distribution.
-The full text of the license may be found at
+    The full text of the license may be found at
-http://opensource.org/licenses/bsd-license.php.
+    http://opensource.org/licenses/bsd-license.
 THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
 WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
    THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
    WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
 **/
 #ifndef _STDARG_H
 #define _STDARG_H
 #include  <sys/EfiCdefs.h>
-/** The type va_list is a type suitable for holding information needed by the
+/** @{
    The type va_list is a type suitable for holding information needed by the
    macros va_start, va_arg, and va_end.
    Depending upon compiler or CPU architecture, different definitions are required.
 **/
 #if defined(__GNUC__)
 typedef __builtin_va_list   va_list;
 #else
 #define va_list   VA_LIST
 #endif
 /*@}*/
-/** The va_start macro shall be invoked before any access to the unnamed arguments.
+/** @{
    The va_start macro must be invoked before any access to the unnamed arguments.
    The va_start macro initializes ap for subsequent use by va_arg and va_end.
    Synopsys: void va_start(va_list ap, paramN);
@ -71,8 +70,10 @@ typedef __builtin_va_list   va_list;
 #else
 #define va_start    VA_START
 #endif
 /*@}*/
-/** The va_arg macro expands to an expression that has the type and value of
+/** @{
    The va_arg macro expands to an expression that has the type and value of
    the next argument in the call.  The parameter ap shall be the same as the
    va_list ap initialized by va_start.  Each invocation of va_arg modifies ap
    so that the values of successive arguments are returned in turn.  The
@ -99,8 +100,10 @@ typedef __builtin_va_list   va_list;
 #else
 #define va_arg        VA_ARG
 #endif
 /*@}*/
-/** The va_end macro facillitates a normal return from the function whose
+/** @{
    The va_end macro facillitates a normal return from the function whose
    variable argument list was referred to by the expansion of va_start that
    initialized the va_list ap.
@ -119,12 +122,16 @@ typedef __builtin_va_list   va_list;
 #else
 #define va_end              VA_END
 #endif
 /*@}*/
-/** For BSD compatibility. **/
+/** @{
    For BSD compatibility.
 **/
 #if defined(__GNUC__)
 #define va_copy         __builtin_va_copy
 #else
 #define va_copy(s,d)      (s) = (d)
 #endif
 /*@}*/
 #endif  /* _STDARG_H */
--- a/StdLib/Include/stdbool.h
+++ b/StdLib/Include/stdbool.h
@ -1,8 +1,12 @@
 /** @file
-  The header <stdbool.h> defines four macros: bool, true, false,
+  Macros to simplify boolean expressions and operations.
  and __bool_true_false_are_defined.
-  The macro bool expands to _Bool.
+  This header is not specified by the C95 standard but is included here for
  operational convenience.
  The macro bool expands to _Bool, as required by the C99 specification.
  This subsequently expands to BOOLEAN, is a UEFI data type which is automatically
  defined correctly for the target CPU architecture.
  The remaining three macros are suitable for use in #if preprocessing
  directives. They are true, which expands to the integer constant 1,
@ -12,23 +16,22 @@
  A program may undefine and perhaps then redefine the
  macros bool, true, and false.
-  Copyright (c) 2010, Intel Corporation. All rights reserved.<BR>
+  Copyright (c) 2010 - 2011, Intel Corporation. All rights reserved.<BR>
  This program and the accompanying materials are licensed and made available under
  the terms and conditions of the BSD License that accompanies this distribution.
  The full text of the license may be found at
-  http://opensource.org/licenses/bsd-license.php.
+  http://opensource.org/licenses/bsd-license.
  THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
  WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
 **/
 #ifndef _STDBOOL_H
 #define _STDBOOL_H
 #include  <sys/EfiCdefs.h>
-#define bool  _Bool
+#define bool    _Bool
-#define true  1
+#define true        1
-#define false 0
+#define false       0
 #define __bool_true_false_are_defined 1
 #endif    /* _STDBOOL_H */
--- a/StdLib/Include/stddef.h
+++ b/StdLib/Include/stddef.h
@ -1,64 +1,68 @@
 /** @file
-  Common Definitions.
+  Common "Standard" Definitions.
-Copyright (c) 2010, Intel Corporation. All rights reserved.<BR>
+  The files stddef.h and stdlib.h are "catch all" headers for definitions and declarations
-This program and the accompanying materials are licensed and made available under
+  that don't fit well in the other headers.  There are two separate header files because
-the terms and conditions of the BSD License that accompanies this distribution.
+  the contents of <stddef.h> are valid in both freestanding and hosted environment, while the
-The full text of the license may be found at
+  header <stdlib.h> contains elements that are only valid in a hosted environment.
 http://opensource.org/licenses/bsd-license.php.
-THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
+  This means that the elements in this file may not impose dependencies on headers other than
-WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
+  <float.h>, <iso646.h>, <limits.h>, <stdarg.h>, <stdbool.h>, and (of course) <sys/EfiCdefs.h>.
  Copyright (c) 2010 - 2011, Intel Corporation. All rights reserved.<BR>
  This program and the accompanying materials are licensed and made available under
  the terms and conditions of the BSD License that accompanies this distribution.
  The full text of the license may be found at
  http://opensource.org/licenses/bsd-license.
  THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
  WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
 **/
 #ifndef _STDDEF_H
 #define _STDDEF_H
 #include  <sys/EfiCdefs.h>
 /** ptrdiff_t is the signed integer type of the result of subtracting two pointers.
 **/
 #ifdef _EFI_PTRDIFF_T_
  /** ptrdiff_t is the signed integer type of the result of subtracting two pointers. **/
  typedef _EFI_PTRDIFF_T_  ptrdiff_t;
  #undef _EFI_PTRDIFF_T_
 #endif
 /** size_t is the unsigned integer type of the result of the sizeof operator.
 **/
 #ifdef _EFI_SIZE_T_
  /** size_t is the unsigned integer type of the result of the sizeof operator. **/
  typedef _EFI_SIZE_T_  size_t;
  #undef _EFI_SIZE_T_
  #undef _BSD_SIZE_T_
 #endif
 /** wchar_t is an integer type whose range of values can represent distinct
    codes for all members of the largest extended character set specified among
    the supported locales.  The null character shall have the code value zero.
 **/
 #ifndef __cplusplus
  #ifdef _EFI_WCHAR_T
    /** wchar_t is an integer type whose range of values can represent distinct
        codes for all members of the largest extended character set specified among
        the supported locales.  The null character shall have the code value zero.
    **/
    typedef _EFI_WCHAR_T wchar_t;
    #undef  _EFI_WCHAR_T
    #undef _BSD_WCHAR_T_
  #endif
 #endif
-/** NULL expands to an implementation-defined null pointer constant.
+/** @def NULL
    A macro that expands to a null pointer constant.<BR>
    NULL is defined in MdePkg/Include/Base.h which is automatically included
    by the EDK II build tools.
 **/
-/** offsetof(type, member-designator) expands to an integer constant expression
+/** The offsetof macro determines the offset of the beginning of a structure
-    that has type size_t, the value of which is the offset in bytes, to the
+    member from the beginning of the structure.
-    structure member (designated by member-designator), from the beginning of
+
-    its structure (designated by type). The type and member designator shall be
+    The macro expands to an integer constant expression that has type size_t,
-    such that given<BR>
+    the value of which is the offset in bytes, to the structure member (Member),
-    static type t;<BR>
+    from the beginning of its structure (StrucName).
    then the expression &(t.member-designator) evaluates to an address constant.
    (If the specified member is a bit-field, the behavior is undefined.)
    Alliased to OFFSET_OF which is defined in MdePkg/Include/Base.h which is
    automatically included by the EDK II build tools.
 **/
-#define offsetof(type, member)  OFFSET_OF(type, member)
+#define offsetof(StrucName, Member)  OFFSET_OF(StrucName, Member)
 #endif  /* _STDDEF_H */
--- a/StdLib/Include/stdio.h
+++ b/StdLib/Include/stdio.h
--- a/StdLib/Include/sys/signal.h
+++ b/StdLib/Include/sys/signal.h
@ -1,19 +1,30 @@
-/**
+/** @file
 Copyright (c) 2010 - 2011, Intel Corporation. All rights reserved.<BR>
 This program and the accompanying materials are licensed and made available under
 the terms and conditions of the BSD License that accompanies this distribution.
 The full text of the license may be found at
 http://opensource.org/licenses/bsd-license.php.
-THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
+    Implementation and Platform specific portion of <signal.h>.
 WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
    Copyright (c) 2010 - 2011, Intel Corporation. All rights reserved.<BR>
    This program and the accompanying materials are licensed and made available under
    the terms and conditions of the BSD License that accompanies this distribution.
    The full text of the license may be found at
    http://opensource.org/licenses/bsd-license.
    THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
    WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
 **/
 #ifndef _SYS_SIGNAL_H
 #define _SYS_SIGNAL_H
 #include  <sys/EfiCdefs.h>
 #include  <machine/signal.h>
 /** The actual (default) signal numbers are assigned using an anonymous enum
    so that the compiler can do the work of assigning values.  This helps
    ensure that the developer should never have to renumber the signals or
    figure out what number to assign to a new signal.
    Properly constructed programs will NEVER depend upon signal numbers being
    in a particular order or having a particular value.  All that is guaranteed
    is that each signal number is distinct, positive, and non-zero.
 **/
 enum {
  __SigInt    = 1,
  __SigIll,
@ -36,6 +47,7 @@ enum {
 /** The type of a signal handler function. **/
 typedef void __sighandler_t(int);
 __BEGIN_DECLS
 /** The signal function associates a "signal handler" with a signal number.
    For historical reasons; programs expect signal to be declared
@ -49,8 +61,8 @@ typedef void __sighandler_t(int);
                the specified signal sig. Otherwise, a value of SIG_ERR is
                returned and a positive value is stored in errno.
 */
 __BEGIN_DECLS
 __sighandler_t  *signal(int sig, __sighandler_t *func);
 __END_DECLS
 #endif    /* _SYS_SIGNAL_H */
--- a/StdLib/LibC/Stdio/fgetpos.c
+++ b/StdLib/LibC/Stdio/fgetpos.c
@ -56,7 +56,7 @@ fgetpos(FILE *fp, fpos_t *pos)
  _DIAGASSERT(fp != NULL);
  _DIAGASSERT(pos != NULL);
-  if(fp == NULL) {
+  if((fp == NULL) || (pos == NULL)) {
    errno = EINVAL;
    return (EOF);
  }