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/*
 * Copyright (C) 2005 Josef Cejka
 * All rights reserved.
 *
 * 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.
 * - The name of the author may not be used to endorse or promote products
 *   derived from this software without specific prior written permission.
 *
 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``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 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.
 */

#include<sftypes.h>
#include<add.h>
#include<comparison.h>

/** Add two Float32 numbers with same signs
 */
float32 addFloat32(float32 a, float32 b)
{
    int expdiff;
    __u32 exp1, exp2,mant1, mant2;
    
    expdiff = a.parts.exp - b.parts.exp;
    if (expdiff < 0) {
        if (isFloat32NaN(b)) {
            //TODO: fix SigNaN
            if (isFloat32SigNaN(b)) {
            };

            return b;
        };
        
        if (b.parts.exp == FLOAT32_MAX_EXPONENT) { 
            return b;
        }
        
        mant1 = b.parts.mantisa;
        exp1 = b.parts.exp;
        mant2 = a.parts.mantisa;
        exp2 = a.parts.exp;
        expdiff *= -1;
    } else {
        if (isFloat32NaN(a)) {
            //TODO: fix SigNaN
            if (isFloat32SigNaN(a) || isFloat32SigNaN(b)) {
            };
            return a;
        };
        
        if (a.parts.exp == FLOAT32_MAX_EXPONENT) { 
            return a;
        }
        
        mant1 = a.parts.mantisa;
        exp1 = a.parts.exp;
        mant2 = b.parts.mantisa;
        exp2 = b.parts.exp;
    };
    
    if (exp1 == 0) {
        /* both are denormalized */
        mant1 += mant2;
        if (mant1 & FLOAT32_HIDDEN_BIT_MASK ) {
            /* result is not denormalized */
            a.parts.exp = 1;
        };
        a.parts.mantisa = mant1;
        return a;
    };
    
    mant1 |= FLOAT32_HIDDEN_BIT_MASK; //add hidden bit

    if (exp2 == 0) {
        /* second operand is denormalized */
        --expdiff;  
    } else {
        /* add hidden bit to second operand */
        mant2 |= FLOAT32_HIDDEN_BIT_MASK; 
    };
    
    /* create some space for rounding */
    mant1 <<= 6;
    mant2 <<= 6;
    
    if (expdiff > (FLOAT32_MANTISA_SIZE + 1) ) {
         goto done; 
         };
    
    mant2 >>= expdiff;
    mant1 += mant2;
done:
    if (mant1 & (FLOAT32_HIDDEN_BIT_MASK << 7) ) {
        ++exp1;
        mant1 >>= 1;
    };
    
    /* rounding - if first bit after mantisa is set then round up */
    mant1 += (0x1 << 5);
    
    if (mant1 & (FLOAT32_HIDDEN_BIT_MASK << 7)) { 
        ++exp1;
        mant1 >>= 1;
    };
    
    a.parts.exp = exp1;
    
    /*Clear hidden bit and shift */
    a.parts.mantisa = ((mant1 >> 6) & (~FLOAT32_HIDDEN_BIT_MASK)) ; 
    return a;
}


/** Add two Float64 numbers with same signs
 */
float64 addFloat64(float64 a, float64 b)
{
    int expdiff;
    __u64 exp1, exp2, mant1, mant2;
    
    expdiff = a.parts.exp - b.parts.exp;
    if (expdiff < 0) {
        if (isFloat64NaN(b)) {
            //TODO: fix SigNaN
            if (isFloat64SigNaN(b)) {
            };

            return b;
        };
        
        /* b is infinity and a not */   
        if (b.parts.exp == FLOAT64_MAX_EXPONENT ) { 
            return b;
        }
        
        mant1 = b.parts.mantisa;
        exp1 = b.parts.exp;
        mant2 = a.parts.mantisa;
        exp2 = a.parts.exp;
        expdiff *= -1;
    } else {
        if (isFloat64NaN(a)) {
            //TODO: fix SigNaN
            if (isFloat64SigNaN(a) || isFloat64SigNaN(b)) {
            };
            return a;
        };
        
        /* a is infinity and b not */
        if (a.parts.exp == FLOAT64_MAX_EXPONENT ) { 
            return a;
        }
        
        mant1 = a.parts.mantisa;
        exp1 = a.parts.exp;
        mant2 = b.parts.mantisa;
        exp2 = b.parts.exp;
    };
    
    if (exp1 == 0) {
        /* both are denormalized */
        mant1 += mant2;
        if (mant1 & FLOAT64_HIDDEN_BIT_MASK) { 
            /* result is not denormalized */
            a.parts.exp = 1;
        };
        a.parts.mantisa = mant1;
        return a;
    };
    
    /* add hidden bit - mant1 is sure not denormalized */
    mant1 |= FLOAT64_HIDDEN_BIT_MASK;

    /* second operand ... */
    if (exp2 == 0) {
        /* ... is denormalized */
        --expdiff;  
    } else {
        /* is not denormalized */
        mant2 |= FLOAT64_HIDDEN_BIT_MASK;
    };
    
    /* create some space for rounding */
    mant1 <<= 6;
    mant2 <<= 6;
    
    if (expdiff > (FLOAT64_MANTISA_SIZE + 1) ) {
         goto done; 
         };
    
    mant2 >>= expdiff;
    mant1 += mant2;
done:
    if (mant1 & (FLOAT64_HIDDEN_BIT_MASK << 7) ) {
        ++exp1;
        mant1 >>= 1;
    };
    
    /* rounding - if first bit after mantisa is set then round up */
    mant1 += (0x1 << 5); 
    
    if (mant1 & (FLOAT64_HIDDEN_BIT_MASK << 7)) { 
        ++exp1;
        mant1 >>= 1;
    };
    
    a.parts.exp = exp1;
    /*Clear hidden bit and shift */
    a.parts.mantisa = ( (mant1 >> 6 ) & (~FLOAT64_HIDDEN_BIT_MASK));
    return a;
}