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[/] [zipcpu/] [trunk/] [bench/] [cpp/] [div_tb.cpp] - Blame information for rev 151

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1 77 dgisselq
///////////////////////////////////////////////////////////////////////////////
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//
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// Filename:    div_tb.cpp
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//
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// Project:     Zip CPU -- a small, lightweight, RISC CPU soft core
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//
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// Purpose:     Bench testing for the divide unit found within the Zip CPU.
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//
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//
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// Creator:     Dan Gisselquist, Ph.D.
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//              Gisselquist Technology, LLC
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//
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///////////////////////////////////////////////////////////////////////////////
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//
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// Copyright (C) 2015, Gisselquist Technology, LLC
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//
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// This program is free software (firmware): you can redistribute it and/or
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// modify it under the terms of  the GNU General Public License as published
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// by the Free Software Foundation, either version 3 of the License, or (at
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// your option) any later version.
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//
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// This program is distributed in the hope that it will be useful, but WITHOUT
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// ANY WARRANTY; without even the implied warranty of MERCHANTIBILITY or
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// FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
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// for more details.
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//
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// License:     GPL, v3, as defined and found on www.gnu.org,
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//              http://www.gnu.org/licenses/gpl.html
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//
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//
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///////////////////////////////////////////////////////////////////////////////
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//
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//
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#include <signal.h>
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#include <time.h>
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#include <unistd.h>
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#include <assert.h>
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#include <ctype.h>
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#include "verilated.h"
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#include "Vdiv.h"
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#include "testb.h"
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// #include "twoc.h"
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class   DIV_TB : public TESTB<Vdiv> {
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public:
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        DIV_TB(void) {
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        }
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        ~DIV_TB(void) {}
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        void    reset(void) {
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                // m_flash.debug(false);
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                TESTB<Vdiv>::reset();
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        }
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        bool    on_tick(void) {
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                tick();
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                return true;
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        }
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        void    bprint(char *str, int nbits, unsigned long v) {
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                while(*str)
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                        str++;
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                for(int i=0; i<nbits; i++) {
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                        if ((1l<<(nbits-1-i))&v)
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                                *str++ = '1';
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                        else
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                                *str++ = '0';
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                        if (((nbits-1-i)&3)==0)
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                                *str++ = ' ';
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                } *str = '\0';
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        }
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        void    tick(void) {
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                bool    debug = false;
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                if (debug) {
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                        char    outstr[2048], *s;
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                        sprintf(outstr, "Tick %4ld %s%s%s%s%s%s %2d",
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                                m_tickcount,
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                                (m_core->o_busy)?"B":" ",
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                                (m_core->o_valid)?"V":" ",
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                                (m_core->i_wr)?"W":" ",
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                                (m_core->v__DOT__pre_sign)?"+":" ",
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                                (m_core->v__DOT__r_sign)?"-":" ",
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                                (m_core->v__DOT__r_z)?"Z":" ",
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                                m_core->v__DOT__r_bit);
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                        s = &outstr[strlen(outstr)];
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                        sprintf(s, "%s\n%10s %40s",s, "Div","");
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                                s = &s[strlen(s)];
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                        bprint( s, 32, m_core->v__DOT__r_dividend);
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                                s=&s[strlen(s)];
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                        sprintf(s, "%s\n%10s ",s, "Div"); s = &s[strlen(s)];
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                        bprint( s, 64, m_core->v__DOT__r_divisor);
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                                s=&s[strlen(s)];
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                        sprintf(s, "%s\n%10s %40s",s, "Q",""); s=&s[strlen(s)];
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                        bprint( s, 32, m_core->o_quotient); s = &s[strlen(s)];
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                        sprintf(s, "%s\n%10s %38s",s, "Diff","");
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                                s=&s[strlen(s)];
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                        bprint( s, 33, m_core->v__DOT__diff); s = &s[strlen(s)];
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                        strcat(s, "\n");
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                        puts(outstr);
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                }
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                TESTB<Vdiv>::tick();
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        }
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        void    divs(int n, int d) {
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                bool    dbg = false;
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                int     ans;
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                ans = (d==0)?0:   (n / d);
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                assert(m_core->o_busy == 0);
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                m_core->i_rst = 0;
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                m_core->i_wr = 1;
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                m_core->i_signed = 1;
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                m_core->i_numerator = n;
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                m_core->i_denominator = d;
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                tick();
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                m_core->i_wr = 0;
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                m_core->i_signed = 0;
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                m_core->i_numerator = 0;
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                m_core->i_denominator = 0;
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                assert(m_core->o_busy);
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                assert(m_core->o_valid == 0);
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                // while((!m_core->o_valid)&&(!m_core->o_err))
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                while(!m_core->o_valid)
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                        tick();
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                if (dbg) {
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                        printf("%s%s: %d / %d =? %d\n",
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                                (m_core->o_valid)?"V":" ",
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                                (m_core->o_err)?"E":" ",
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                                n, d, m_core->o_quotient);
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                }
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                if ((m_core->o_err)||(d==0)) {
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                        if (d==0)
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                                assert(m_core->o_err);
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                        else    assert(!m_core->o_err);
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                } else
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                        assert(ans == (int)m_core->o_quotient);
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        }
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        void    divu(unsigned n, unsigned d) {
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                bool    dbg = false;
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                unsigned        ans;
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                ans = (d==0)?0:   (n / d);
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                assert(m_core->o_busy == 0);
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                m_core->i_rst = 0;
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                m_core->i_wr = 1;
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                m_core->i_signed = 0;
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                m_core->i_numerator = n;
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                m_core->i_denominator = d;
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                tick();
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                m_core->i_wr = 0;
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                m_core->i_signed = 0;
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                m_core->i_numerator = 0;
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                m_core->i_denominator = 0;
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                assert(m_core->o_busy);
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                assert(m_core->o_valid == 0);
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                while(!m_core->o_valid)
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                        tick();
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                if (dbg) {
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                        printf("%s%s: %u / %u =? %d (Expecting %u)\n",
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                                (m_core->o_valid)?"V":" ",
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                                (m_core->o_err)?"E":" ",
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                                n, d, m_core->o_quotient, ans);
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                }
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                if ((m_core->o_err)||(d==0)) {
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                        if (d==0)
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                                assert(m_core->o_err);
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                        else    assert(!m_core->o_err);
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                } else
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                        assert(ans == (unsigned)m_core->o_quotient);
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        }
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        void    divide(int n, int d) {
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                divs(n,d);
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        }
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};
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void    usage(void) {
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        printf("USAGE: div_tb\n");
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        printf("\n");
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        printf("\t\n");
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}
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int     main(int argc, char **argv) {
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        Verilated::commandArgs(argc, argv);
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        DIV_TB  *tb = new DIV_TB();
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        int     rcode = EXIT_SUCCESS;
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        tb->reset();
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        tb->divide(125,7);
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        tb->tick();
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        tb->divide(125,-7);
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        tb->tick();
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        tb->divu((1u<<31),7);
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        tb->divu((7u<<29),(1u<<31));
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        tb->tick();
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        tb->divs(32768,0);
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        tb->tick();
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        tb->divu((1u<<31),0);
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        tb->tick();
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        tb->divs((1u<<30),0);
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        tb->tick();
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        for(int i=32767; i>=0; i--) {
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                tb->divs((1u<<30),i);
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                tb->tick();
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        } for(int i=32767; i>=0; i--) {
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                // tb->divu(-1, i);
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                tb->divu((1u<<31), i);
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                tb->tick();
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        } for(int i=32767; i>=0; i--) {
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                tb->divide(32768, i);
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                tb->tick();
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        }
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        /*
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         * While random data is a nice test idea, the following just never
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         * really tested the divide unit thoroughly enough.
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         *
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        tb->divide(rand(),rand()/2);
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        tb->tick();
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        tb->divide(rand(),rand()/2);
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        tb->tick();
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        tb->divide(rand(),rand()/2);
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        tb->tick();
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        tb->divide(rand(),rand()/2);
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        */
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        printf("SUCCESS!\n");
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        exit(rcode);
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}
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