/** * \file libyasm/intnum.h * \brief YASM integer number interface. * * \rcs * $Id: intnum.h 2130 2008-10-07 05:38:11Z peter $ * \endrcs * * \license * Copyright (C) 2001-2007 Peter Johnson * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * - Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * - 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 AUTHOR AND OTHER 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 AUTHOR OR OTHER 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. * \endlicense */ #ifndef YASM_INTNUM_H #define YASM_INTNUM_H #ifndef YASM_LIB_DECL #define YASM_LIB_DECL #endif /** Initialize intnum internal data structures. */ YASM_LIB_DECL void yasm_intnum_initialize(void); /** Clean up internal intnum allocations. */ YASM_LIB_DECL void yasm_intnum_cleanup(void); /** Create a new intnum from a decimal string. * \param str decimal string * \return Newly allocated intnum. */ YASM_LIB_DECL /*@only@*/ yasm_intnum *yasm_intnum_create_dec(char *str); /** Create a new intnum from a binary string. * \param str binary string * \return Newly allocated intnum. */ YASM_LIB_DECL /*@only@*/ yasm_intnum *yasm_intnum_create_bin(char *str); /** Create a new intnum from an octal string. * \param str octal string * \return Newly allocated intnum. */ YASM_LIB_DECL /*@only@*/ yasm_intnum *yasm_intnum_create_oct(char *str); /** Create a new intnum from a hexidecimal string. * \param str hexidecimal string * \return Newly allocated intnum. */ YASM_LIB_DECL /*@only@*/ yasm_intnum *yasm_intnum_create_hex(char *str); /** Convert character constant to integer value, using NASM rules. NASM syntax * supports automatic conversion from strings such as 'abcd' to a 32-bit * integer value (little endian order). This function performs those conversions. * \param str character constant string * \return Newly allocated intnum. */ YASM_LIB_DECL /*@only@*/ yasm_intnum *yasm_intnum_create_charconst_nasm(const char *str); /** Convert character constant to integer value, using TASM rules. TASM syntax * supports automatic conversion from strings such as 'abcd' to a 32-bit * integer value (big endian order). This function performs those conversions. * \param str character constant string * \return Newly allocated intnum. */ YASM_LIB_DECL /*@only@*/ yasm_intnum *yasm_intnum_create_charconst_tasm(const char *str); /** Create a new intnum from an unsigned integer value. * \param i unsigned integer value * \return Newly allocated intnum. */ YASM_LIB_DECL /*@only@*/ yasm_intnum *yasm_intnum_create_uint(unsigned long i); /** Create a new intnum from an signed integer value. * \param i signed integer value * \return Newly allocated intnum. */ YASM_LIB_DECL /*@only@*/ yasm_intnum *yasm_intnum_create_int(long i); /** Create a new intnum from LEB128-encoded form. * \param ptr pointer to start of LEB128 encoded form * \param sign signed (1) or unsigned (0) LEB128 format * \param size number of bytes read from ptr (output) * \return Newly allocated intnum. Number of bytes read returned into * bytes_read parameter. */ YASM_LIB_DECL /*@only@*/ yasm_intnum *yasm_intnum_create_leb128 (const unsigned char *ptr, int sign, /*@out@*/ unsigned long *size); /** Create a new intnum from a little-endian or big-endian buffer. * In little endian, the LSB is in ptr[0]. * \param ptr pointer to start of buffer * \param sign signed (1) or unsigned (0) source * \param srcsize source buffer size (in bytes) * \param bigendian endianness (nonzero=big, zero=little) */ YASM_LIB_DECL /*@only@*/ yasm_intnum *yasm_intnum_create_sized (unsigned char *ptr, int sign, size_t srcsize, int bigendian); /** Duplicate an intnum. * \param intn intnum * \return Newly allocated intnum with the same value as intn. */ YASM_LIB_DECL /*@only@*/ yasm_intnum *yasm_intnum_copy(const yasm_intnum *intn); /** Destroy (free allocated memory for) an intnum. * \param intn intnum */ YASM_LIB_DECL void yasm_intnum_destroy(/*@only@*/ yasm_intnum *intn); /** Floating point calculation function: acc = acc op operand. * \note Not all operations in yasm_expr_op may be supported; unsupported * operations will result in an error. * \param acc intnum accumulator * \param op operation * \param operand intnum operand * \return Nonzero if error occurred. */ YASM_LIB_DECL int yasm_intnum_calc(yasm_intnum *acc, yasm_expr_op op, yasm_intnum *operand); /** Compare two intnums. * \param intn1 first intnum * \param intn2 second intnum * \return -1 if intn1 < intn2, 0 if intn1 == intn2, 1 if intn1 > intn2. */ YASM_LIB_DECL int yasm_intnum_compare(const yasm_intnum *intn1, const yasm_intnum *intn2); /** Zero an intnum. * \param intn intnum */ YASM_LIB_DECL void yasm_intnum_zero(yasm_intnum *intn); /** Set an intnum to the value of another intnum. * \param intn intnum * \param val intnum to get value from */ YASM_LIB_DECL void yasm_intnum_set(yasm_intnum *intn, const yasm_intnum *val); /** Set an intnum to an unsigned integer. * \param intn intnum * \param val integer value */ YASM_LIB_DECL void yasm_intnum_set_uint(yasm_intnum *intn, unsigned long val); /** Set an intnum to an signed integer. * \param intn intnum * \param val integer value */ YASM_LIB_DECL void yasm_intnum_set_int(yasm_intnum *intn, long val); /** Simple value check for 0. * \param acc intnum * \return Nonzero if acc==0. */ YASM_LIB_DECL int yasm_intnum_is_zero(const yasm_intnum *acc); /** Simple value check for 1. * \param acc intnum * \return Nonzero if acc==1. */ YASM_LIB_DECL int yasm_intnum_is_pos1(const yasm_intnum *acc); /** Simple value check for -1. * \param acc intnum * \return Nonzero if acc==-1. */ YASM_LIB_DECL int yasm_intnum_is_neg1(const yasm_intnum *acc); /** Simple sign check. * \param acc intnum * \return -1 if negative, 0 if zero, +1 if positive */ YASM_LIB_DECL int yasm_intnum_sign(const yasm_intnum *acc); /** Convert an intnum to an unsigned 32-bit value. The value is in "standard" * C format (eg, of unknown endian). * \note Parameter intnum is truncated to fit into 32 bits. Use * intnum_check_size() to check for overflow. * \param intn intnum * \return Unsigned 32-bit value of intn. */ YASM_LIB_DECL unsigned long yasm_intnum_get_uint(const yasm_intnum *intn); /** Convert an intnum to a signed 32-bit value. The value is in "standard" C * format (eg, of unknown endian). * \note Parameter intnum is truncated to fit into 32 bits. Use * intnum_check_size() to check for overflow. * \param intn intnum * \return Signed 32-bit value of intn. */ YASM_LIB_DECL long yasm_intnum_get_int(const yasm_intnum *intn); /** Output #yasm_intnum to buffer in little-endian or big-endian. Puts the * value into the least significant bits of the destination, or may be shifted * into more significant bits by the shift parameter. The destination bits are * cleared before being set. [0] should be the first byte output to the file. * \param intn intnum * \param ptr pointer to storage for size bytes of output * \param destsize destination size (in bytes) * \param valsize size (in bits) * \param shift left shift (in bits); may be negative to specify right * shift (standard warnings include truncation to boundary) * \param bigendian endianness (nonzero=big, zero=little) * \param warn enables standard warnings (value doesn't fit into valsize * bits): <0=signed warnings, >0=unsigned warnings, 0=no warn */ YASM_LIB_DECL void yasm_intnum_get_sized(const yasm_intnum *intn, unsigned char *ptr, size_t destsize, size_t valsize, int shift, int bigendian, int warn); /** Check to see if intnum will fit without overflow into size bits. * \param intn intnum * \param size number of bits of output space * \param rshift right shift * \param rangetype signed/unsigned range selection: * 0 => (0, unsigned max); * 1 => (signed min, signed max); * 2 => (signed min, unsigned max) * \return Nonzero if intnum will fit. */ YASM_LIB_DECL int yasm_intnum_check_size(const yasm_intnum *intn, size_t size, size_t rshift, int rangetype); /** Check to see if intnum will fit into a particular numeric range. * \param intn intnum * \param low low end of range (inclusive) * \param high high end of range (inclusive) * \return Nonzero if intnum is within range. */ YASM_LIB_DECL int yasm_intnum_in_range(const yasm_intnum *intn, long low, long high); /** Output #yasm_intnum to buffer in LEB128-encoded form. * \param intn intnum * \param ptr pointer to storage for output bytes * \param sign signedness of LEB128 encoding (0=unsigned, 1=signed) * \return Number of bytes generated. */ YASM_LIB_DECL unsigned long yasm_intnum_get_leb128(const yasm_intnum *intn, unsigned char *ptr, int sign); /** Calculate number of bytes LEB128-encoded form of #yasm_intnum will take. * \param intn intnum * \param sign signedness of LEB128 encoding (0=unsigned, 1=signed) * \return Number of bytes. */ YASM_LIB_DECL unsigned long yasm_intnum_size_leb128(const yasm_intnum *intn, int sign); /** Output integer to buffer in signed LEB128-encoded form. * \param v integer * \param ptr pointer to storage for output bytes * \return Number of bytes generated. */ YASM_LIB_DECL unsigned long yasm_get_sleb128(long v, unsigned char *ptr); /** Calculate number of bytes signed LEB128-encoded form of integer will take. * \param v integer * \return Number of bytes. */ YASM_LIB_DECL unsigned long yasm_size_sleb128(long v); /** Output integer to buffer in unsigned LEB128-encoded form. * \param v integer * \param ptr pointer to storage for output bytes * \return Number of bytes generated. */ YASM_LIB_DECL unsigned long yasm_get_uleb128(unsigned long v, unsigned char *ptr); /** Calculate number of bytes unsigned LEB128-encoded form of integer will take. * \param v integer * \return Number of bytes. */ YASM_LIB_DECL unsigned long yasm_size_uleb128(unsigned long v); /** Get an intnum as a signed decimal string. The returned string will * contain a leading '-' if the intnum is negative. * \param intn intnum * \return Newly allocated string containing the decimal representation of * the intnum. */ YASM_LIB_DECL /*@only@*/ char *yasm_intnum_get_str(const yasm_intnum *intn); /** Print an intnum. For debugging purposes. * \param f file * \param intn intnum */ YASM_LIB_DECL void yasm_intnum_print(const yasm_intnum *intn, FILE *f); #endif