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[/] [xulalx25soc/] [trunk/] [sw/] [zipdbg.cpp] - Blame information for rev 31

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///////////////////////////////////////////////////////////////////////////////
//
// Filename:    zipdbg.cpp
//
// Project:     Zip CPU -- a small, lightweight, RISC CPU soft core
//
// Purpose:     
//
//
// Creator:     Dan Gisselquist, Ph.D.
//              Gisselquist Tecnology, LLC
//
///////////////////////////////////////////////////////////////////////////////
//
// Copyright (C) 2015, Gisselquist Technology, LLC
//
// This program is free software (firmware): you can redistribute it and/or
// modify it under the terms of  the GNU General Public License as published
// by the Free Software Foundation, either version 3 of the License, or (at
// your option) any later version.
//
// This program is distributed in the hope that it will be useful, but WITHOUT
// ANY WARRANTY; without even the implied warranty of MERCHANTIBILITY or
// FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
// for more details.
//
// License:     GPL, v3, as defined and found on www.gnu.org,
//              http://www.gnu.org/licenses/gpl.html
//
//
///////////////////////////////////////////////////////////////////////////////
//
//
//
// BUGS:
//      - No ability to verify CPU functionality (3rd party simulator)
//      - No ability to set/clear breakpoints
//
//
//
#include <stdlib.h>
#include <signal.h>
#include <time.h>
#include <unistd.h>
#include <string.h>
 
#include <ctype.h>
#include <ncurses.h>
 
#include "zopcodes.h"
#include "zparser.h"
#include "devbus.h"
#include "regdefs.h"
 
#include "usbi.h"
#include "port.h"
 
#define CMD_REG         0
#define CMD_DATA        1
#define CMD_HALT        (1<<10)
#define CMD_STALL       (1<<9)
#define CMD_STEP        (1<<8)
#define CMD_INT         (1<<7)
#define CMD_RESET       (1<<6)
 
#define KEY_ESCAPE      27
#define KEY_RETURN      10
#define CTRL(X)         ((X)&0x01f)
 
class   SPARSEMEM {
public:
        bool    m_valid;
        unsigned int    m_a, m_d;
};
 
bool    gbl_err = false;
class   ZIPSTATE {
public:
        bool            m_valid, m_gie, m_last_pc_valid;
        unsigned int    m_sR[16], m_uR[16];
        unsigned int    m_p[20];
        unsigned int    m_last_pc, m_pc, m_sp;
        SPARSEMEM       m_smem[5];
        SPARSEMEM       m_imem[5];
        ZIPSTATE(void) : m_valid(false), m_last_pc_valid(false) {}
 
        void    step(void) {
                m_last_pc_valid = true;
                m_last_pc = m_pc;
        }
};
 
// No particular "parameters" need definition or redefinition here.
class   ZIPPY : public DEVBUS {
        static  const   int     MAXERR;
        typedef DEVBUS::BUSW    BUSW;
        DEVBUS  *m_fpga;
        int     m_cursor;
        ZIPSTATE        m_state;
        bool    m_user_break, m_show_users_timers;
public:
        ZIPPY(DEVBUS *fpga) : m_fpga(fpga), m_cursor(0), m_user_break(false),
                m_show_users_timers(false) {}
 
        void    read_raw_state(void) {
                m_state.m_valid = false;
                for(int i=0; i<16; i++)
                        m_state.m_sR[i] = cmd_read(i);
                for(int i=0; i<16; i++)
                        m_state.m_uR[i] = cmd_read(i+16);
                for(int i=0; i<20; i++)
                        m_state.m_p[i]  = cmd_read(i+32);
 
                m_state.m_gie = (m_state.m_sR[14] & 0x020);
                m_state.m_pc  = (m_state.m_gie) ? (m_state.m_uR[15]):(m_state.m_sR[15]);
                m_state.m_sp  = (m_state.m_gie) ? (m_state.m_uR[13]):(m_state.m_sR[13]);
 
                if (m_state.m_last_pc_valid)
                        m_state.m_imem[0].m_a = m_state.m_last_pc;
                else
                        m_state.m_imem[0].m_a = m_state.m_pc - 1;
                try {
                        m_state.m_imem[0].m_d = readio(m_state.m_imem[0].m_a);
                        m_state.m_imem[0].m_valid = true;
                } catch(BUSERR be) {
                        m_state.m_imem[0].m_valid = false;
                }
                m_state.m_imem[1].m_a = m_state.m_pc;
                try {
                        m_state.m_imem[1].m_d = readio(m_state.m_imem[1].m_a);
                        m_state.m_imem[1].m_valid = true;
                } catch(BUSERR be) {
                        m_state.m_imem[1].m_valid = false;
                }
 
                for(int i=1; i<4; i++) {
                        if (!m_state.m_imem[i].m_valid) {
                                m_state.m_imem[i+1].m_valid = false;
                                m_state.m_imem[i+1].m_a = m_state.m_imem[i].m_a+1;
                                continue;
                        }
                        m_state.m_imem[i+1].m_a = zop_early_branch(
                                        m_state.m_imem[i].m_a,
                                        m_state.m_imem[i].m_d);
                        try {
                                m_state.m_imem[i+1].m_d = readio(m_state.m_imem[i+1].m_a);
                                m_state.m_imem[i+1].m_valid = true;
                        } catch(BUSERR be) {
                                m_state.m_imem[i+1].m_valid = false;
                        }
                }
 
                m_state.m_smem[0].m_a = m_state.m_sp;
                for(int i=1; i<5; i++)
                        m_state.m_smem[i].m_a = m_state.m_smem[i-1].m_a+1;
                for(int i=0; i<5; i++) {
                        try {
                                m_state.m_smem[i].m_d = readio(m_state.m_smem[i].m_a);
                                m_state.m_smem[i].m_valid = true;
                        } catch(BUSERR be) {
                                m_state.m_smem[i].m_valid = false;
                        }
                }
                m_state.m_valid = true;
        }
 
        void    kill(void) { m_fpga->kill(); }
        void    close(void) { m_fpga->close(); }
        void    writeio(const BUSW a, const BUSW v) { m_fpga->writeio(a, v); }
        BUSW    readio(const BUSW a) { return m_fpga->readio(a); }
        void    readi(const BUSW a, const int len, BUSW *buf) {
                return m_fpga->readi(a, len, buf); }
        void    readz(const BUSW a, const int len, BUSW *buf) {
                return m_fpga->readz(a, len, buf); }
        void    writei(const BUSW a, const int len, const BUSW *buf) {
                return m_fpga->writei(a, len, buf); }
        void    writez(const BUSW a, const int len, const BUSW *buf) {
                return m_fpga->writez(a, len, buf); }
        bool    poll(void) { return m_fpga->poll(); }
        void    usleep(unsigned ms) { m_fpga->usleep(ms); }
        void    wait(void) { m_fpga->wait(); }
        bool    bus_err(void) const { return m_fpga->bus_err(); }
        void    reset_err(void) { m_fpga->reset_err(); }
        void    clear(void) { m_fpga->clear(); }
 
        void    reset(void) { writeio(R_ZIPCTRL, CPU_RESET|CPU_HALT); }
        void    step(void) { writeio(R_ZIPCTRL, CPU_STEP); m_state.step(); }
        void    go(void) { writeio(R_ZIPCTRL, CPU_GO); }
        void    halt(void) {    writeio(R_ZIPCTRL, CPU_HALT); }
        bool    stalled(void) { return ((readio(R_ZIPCTRL)&CPU_STALL)==0); }
 
        void    show_user_timers(bool v) {
                m_show_users_timers = v;
        }
 
        void    showval(int y, int x, const char *lbl, unsigned int v, bool c) {
                if (c)
                        mvprintw(y,x, ">%s> 0x%08x<", lbl, v);
                else
                        mvprintw(y,x, " %s: 0x%08x ", lbl, v);
        }
 
        void    dispreg(int y, int x, const char *n, unsigned int v, bool c) {
                // 4,4,8,1 = 17 of 20, +2 = 18
                if (c)
                        mvprintw(y, x, ">%s> 0x%08x<", n, v);
                else
                        mvprintw(y, x, " %s: 0x%08x ", n, v);
        }
 
        int     showins(int y, const char *lbl, const unsigned int pcidx) {
                char    la[80], lb[80];
                int     r = y-1;
 
                mvprintw(y, 0, "%s0x%08x", lbl, m_state.m_imem[pcidx].m_a);
 
                if (m_state.m_gie) attroff(A_BOLD);
                else    attron(A_BOLD);
 
                la[0] = '\0';
                lb[0] = '\0';
                if (m_state.m_imem[pcidx].m_valid) {
                        zipi_to_string(m_state.m_imem[pcidx].m_d, la, lb);
                        printw(" 0x%08x", m_state.m_imem[pcidx].m_d);
                        printw("  %-25s", la);
                        if (lb[0]) {
                                mvprintw(y-1, 0, "%s", lbl);
                                mvprintw(y-1, strlen(lbl)+10+3+8+2, "%-25s", lb);
                                r--;
                        }
                } else {
                        printw(" 0x--------  %-25s", "(Bus Error)");
                }
                attroff(A_BOLD);
 
                return r;
        }
 
        void    showstack(int y, const char *lbl, const unsigned int idx) {
                mvprintw(y, 27+26, "%s%08x ", lbl, m_state.m_smem[idx].m_a);
 
                if (m_state.m_gie) attroff(A_BOLD);
                else    attron(A_BOLD);
 
                if (m_state.m_smem[idx].m_valid)
                        printw("0x%08x", m_state.m_smem[idx].m_d);
                else
                        printw("(Bus Err)");
                attroff(A_BOLD);
        }
 
        unsigned int    cmd_read(unsigned int a) {
                int errcount = 0;
                unsigned int    s;
 
                writeio(R_ZIPCTRL, CMD_HALT|(a&0x3f));
                while((((s=readio(R_ZIPCTRL))&CPU_STALL)== 0)&&(errcount<MAXERR)
                                &&(!m_user_break))
                        errcount++;
                if (m_user_break) {
                        endwin();
                        exit(EXIT_SUCCESS);
                } else if (errcount >= MAXERR) {
                        endwin();
                        printf("ERR: errcount(%d) >= MAXERR on cmd_read(a=%2x)\n", errcount, a);
                        printf("ZIPCTRL = 0x%08x", s);
                        if ((s & 0x0200)==0) printf(" STALL");
                        if  (s & 0x0400) printf(" HALTED");
                        if ((s & 0x03000)==0x01000)
                                printf(" SW-HALT");
                        else {
                                if (s & 0x01000) printf(" SLEEPING");
                                if (s & 0x02000) printf(" GIE(UsrMode)");
                        } printf("\n");
                        exit(EXIT_FAILURE);
                }
                return readio(R_ZIPDATA);
        }
 
        void    cmd_write(unsigned int a, int v) {
                int errcount = 0;
                unsigned int    s;
 
                writeio(R_ZIPCTRL, CMD_HALT|(a&0x3f));
                while((((s=readio(R_ZIPCTRL))&CPU_STALL)== 0)&&(errcount<MAXERR)
                                &&(!m_user_break))
                        errcount++;
                if (m_user_break) {
                        endwin();
                        exit(EXIT_SUCCESS);
                } else if (errcount >= MAXERR) {
                        endwin();
                        printf("ERR: errcount(%d) >= MAXERR on cmd_read(a=%2x)\n", errcount, a);
                        printf("ZIPCTRL = 0x%08x", s);
                        if ((s & 0x0200)==0) printf(" STALL");
                        if  (s & 0x0400) printf(" HALTED");
                        if ((s & 0x03000)==0x01000)
                                printf(" SW-HALT");
                        else {
                                if (s & 0x01000) printf(" SLEEPING");
                                if (s & 0x02000) printf(" GIE(UsrMode)");
                        } printf("\n");
                        exit(EXIT_FAILURE);
                }
 
                writeio(R_ZIPDATA, (unsigned int)v);
        }
 
        void    read_state(void) {
                int     ln= 0;
                bool    gie;
 
                read_raw_state();
 
                if (m_cursor < 0)
                        m_cursor = 0;
                else if (m_cursor >= 44)
                        m_cursor = 43;
 
                mvprintw(ln,0, "Peripherals");
                mvprintw(ln,30,"%-50s", "CPU State: ");
                {
                        unsigned int v = readio(R_ZIPCTRL);
                        mvprintw(ln,41, "0x%08x ", v);
                        // if (v & 0x010000)
                                // printw("INT ");
                        if ((v & 0x003000) == 0x03000)
                                printw("Sleeping ");
                        else if (v & 0x001000)
                                printw("Halted ");
                        else if (v & 0x002000)
                                printw("User Mode ");
                        else
                                printw("Supervisor mode ");
                        if (v& 0x0200) {
                                v = m_state.m_sR[15];
 
                        } else printw("Stalled ");
                        // if (v & 0x008000)
                                // printw("Break-Enabled ");
                        // if (v & 0x000080)
                                // printw("PIC Enabled ");
                } ln++;
                showval(ln, 0, "PIC ", m_state.m_p[0], (m_cursor==0));
                showval(ln,20, "WDT ", m_state.m_p[1], (m_cursor==1));
                showval(ln,40, "WBUS", m_state.m_p[2], (m_cursor==2));
                showval(ln,60, "PIC2", m_state.m_p[3], (m_cursor==3));
                ln++;
                showval(ln, 0, "TMRA", m_state.m_p[4], (m_cursor==4));
                showval(ln,20, "TMRB", m_state.m_p[5], (m_cursor==5));
                showval(ln,40, "TMRC", m_state.m_p[6], (m_cursor==6));
                showval(ln,60, "JIF ", m_state.m_p[7], (m_cursor==7));
 
                ln++;
                if (!m_show_users_timers) {
                        showval(ln, 0, "MTSK", m_state.m_p[12], (m_cursor==8));
                        showval(ln,20, "MOST", m_state.m_p[13], (m_cursor==9));
                        showval(ln,40, "MPST", m_state.m_p[14], (m_cursor==10));
                        showval(ln,60, "MICT", m_state.m_p[15], (m_cursor==11));
                } else {
                        showval(ln, 0, "UTSK", m_state.m_p[ 8], (m_cursor==8));
                        showval(ln,20, "UMST", m_state.m_p[ 9], (m_cursor==9));
                        showval(ln,40, "UPST", m_state.m_p[10], (m_cursor==10));
                        showval(ln,60, "UICT", m_state.m_p[11], (m_cursor==11));
                }
 
                ln++;
                ln++;
                unsigned int cc = m_state.m_sR[14];
                gie = (cc & 0x020);
                if (gie)
                        attroff(A_BOLD);
                else
                        attron(A_BOLD);
                mvprintw(ln, 0, "Supervisor Registers");
                ln++;
 
                dispreg(ln, 0, "sR0 ", m_state.m_sR[0], (m_cursor==12));
                dispreg(ln,20, "sR1 ", m_state.m_sR[1], (m_cursor==13));
                dispreg(ln,40, "sR2 ", m_state.m_sR[2], (m_cursor==14));
                dispreg(ln,60, "sR3 ", m_state.m_sR[3], (m_cursor==15)); ln++;
 
                dispreg(ln, 0, "sR4 ", m_state.m_sR[4], (m_cursor==16));
                dispreg(ln,20, "sR5 ", m_state.m_sR[5], (m_cursor==17));
                dispreg(ln,40, "sR6 ", m_state.m_sR[6], (m_cursor==18));
                dispreg(ln,60, "sR7 ", m_state.m_sR[7], (m_cursor==19)); ln++;
 
                dispreg(ln, 0, "sR8 ", m_state.m_sR[ 8], (m_cursor==20));
                dispreg(ln,20, "sR9 ", m_state.m_sR[ 9], (m_cursor==21));
                dispreg(ln,40, "sR10", m_state.m_sR[10], (m_cursor==22));
                dispreg(ln,60, "sR11", m_state.m_sR[11], (m_cursor==23)); ln++;
 
                dispreg(ln, 0, "sR12", m_state.m_sR[12], (m_cursor==24));
                dispreg(ln,20, "sSP ", m_state.m_sR[13], (m_cursor==25));
 
                mvprintw(ln,40, "%ssCC :%s%s%s%s%s%s%s",
                        (m_cursor == 26)?">":" ",
                        (cc&0x1000)?"FE":"", // Floating point exception
                        (cc&0x0800)?"DV":"", // Division by zero
                        (cc&0x0400)?"BE":"", // Bus Error
                        (cc&0x0200)?"TP":"", // Trap
                        (cc&0x0100)?"IL":"", // Illegal instruction
                        (cc&0x0080)?"BK":"", // Break
                        ((gie==0)&&(cc&0x0010))?"HLT":""); // Halted
                mvprintw(ln,54,"%s%s%s%s",
                        (cc&8)?"V":" ",
                        (cc&4)?"N":" ",
                        (cc&2)?"C":" ",
                        (cc&1)?"Z":" ");
                dispreg(ln,60, "sPC ", m_state.m_sR[15], (m_cursor==27));
                ln++;
 
                if (gie)
                        attron(A_BOLD);
                else
                        attroff(A_BOLD);
                mvprintw(ln, 0, "User Registers"); ln++;
                dispreg(ln, 0, "uR0 ", m_state.m_uR[0], (m_cursor==28));
                dispreg(ln,20, "uR1 ", m_state.m_uR[1], (m_cursor==29));
                dispreg(ln,40, "uR2 ", m_state.m_uR[2], (m_cursor==30));
                dispreg(ln,60, "uR3 ", m_state.m_uR[3], (m_cursor==31)); ln++;
 
                dispreg(ln, 0, "uR4 ", m_state.m_uR[4], (m_cursor==32));
                dispreg(ln,20, "uR5 ", m_state.m_uR[5], (m_cursor==33));
                dispreg(ln,40, "uR6 ", m_state.m_uR[6], (m_cursor==34));
                dispreg(ln,60, "uR7 ", m_state.m_uR[7], (m_cursor==35)); ln++;
 
                dispreg(ln, 0, "uR8 ", m_state.m_uR[8], (m_cursor==36));
                dispreg(ln,20, "uR9 ", m_state.m_uR[9], (m_cursor==37));
                dispreg(ln,40, "uR10", m_state.m_uR[10], (m_cursor==38));
                dispreg(ln,60, "uR11", m_state.m_uR[11], (m_cursor==39)); ln++;
 
                dispreg(ln, 0, "uR12", m_state.m_uR[12], (m_cursor==40));
                dispreg(ln,20, "uSP ", m_state.m_uR[13], (m_cursor==41));
                cc = m_state.m_uR[14];
                mvprintw(ln,40, "%suCC :%s%s%s%s%s%s%s",
                        (m_cursor == 42)?">":" ",
                        (cc&0x1000)?"FE":"", // Floating point Exception
                        (cc&0x0800)?"DV":"", // Division by zero
                        (cc&0x0400)?"BE":"", // Bus Error
                        (cc&0x0200)?"TP":"", // Trap
                        (cc&0x0100)?"IL":"", // Illegal instruction
                        (cc&0x0040)?"ST":"", // Single-step
                        ((gie)&&(cc&0x0010))?"SL":""); // Sleep
                mvprintw(ln,54,"%s%s%s%s",
                        (cc&8)?"V":" ",
                        (cc&4)?"N":" ",
                        (cc&2)?"C":" ",
                        (cc&1)?"Z":" ");
                dispreg(ln,60, "uPC ", m_state.m_uR[15], (m_cursor==43));
 
                attroff(A_BOLD);
                ln+=3;
 
                showins(ln+4, " ", 0);
                {
                        int     lclln = ln+3;
                        for(int i=1; i<5; i++)
                                lclln = showins(lclln, (i==1)?">":" ", i);
                        for(int i=0; i<5; i++)
                                showstack(ln+i, (i==0)?">":" ", i);
                }
        }
 
        void    cursor_up(void) {
                if (m_cursor > 3)
                        m_cursor -= 4;
        } void  cursor_down(void) {
                if (m_cursor < 40)
                        m_cursor += 4;
        } void  cursor_left(void) {
                if (m_cursor > 0)
                        m_cursor--;
                else    m_cursor = 43;
        } void  cursor_right(void) {
                if (m_cursor < 43)
                        m_cursor++;
                else    m_cursor = 0;
        }
 
        int     cursor(void) { return m_cursor; }
};
 
const   int ZIPPY::MAXERR = 100000;
 
FPGA    *m_fpga;
 
void    get_value(ZIPPY *zip) {
        int     wy, wx, ra;
        int     c = zip->cursor();
 
        wx = (c & 0x03) * 20 + 9 + 1;
        wy = (c >> 2);
        if (wy >= 3+4)
                wy++;
        if (wy > 3)
                wy += 2;
        wy++;
 
        if (c >= 12)
                ra = c - 12;
        else
                ra = c + 32;
 
        bool    done = false;
        char    str[16];
        int     pos = 0; str[pos] = '\0';
        attron(A_NORMAL | A_UNDERLINE);
        mvprintw(wy, wx, "%-8s", "");
        while(!done) {
                int     chv = getch();
                switch(chv) {
                case KEY_ESCAPE:
                        pos = 0; str[pos] = '\0'; done = true;
                        break;
                case KEY_RETURN: case KEY_ENTER: case KEY_UP: case KEY_DOWN:
                        done = true;
                        break;
                case KEY_LEFT: case KEY_BACKSPACE:
                        if (pos > 0) pos--;
                        break;
                case KEY_CLEAR:
                        pos = 0;
                        break;
                case '0': case ' ': str[pos++] = '0'; break;
                case '1': str[pos++] = '1'; break;
                case '2': str[pos++] = '2'; break;
                case '3': str[pos++] = '3'; break;
                case '4': str[pos++] = '4'; break;
                case '5': str[pos++] = '5'; break;
                case '6': str[pos++] = '6'; break;
                case '7': str[pos++] = '7'; break;
                case '8': str[pos++] = '8'; break;
                case '9': str[pos++] = '9'; break;
                case 'A': case 'a': str[pos++] = 'A'; break;
                case 'B': case 'b': str[pos++] = 'B'; break;
                case 'C': case 'c': str[pos++] = 'C'; break;
                case 'D': case 'd': str[pos++] = 'D'; break;
                case 'E': case 'e': str[pos++] = 'E'; break;
                case 'F': case 'f': str[pos++] = 'F'; break;
                }
 
                if (pos > 8)
                        pos = 8;
                str[pos] = '\0';
 
                attron(A_NORMAL | A_UNDERLINE);
                mvprintw(wy, wx, "%-8s", str);
                if (pos > 0) {
                        attron(A_NORMAL | A_UNDERLINE | A_BLINK);
                        mvprintw(wy, wx+pos-1, "%c", str[pos-1]);
                }
                attrset(A_NORMAL);
        }
 
        if (pos > 0) {
                int     v;
                v = strtoul(str, NULL, 16);
                zip->cmd_write(ra, v);
        }
}
 
void    on_sigint(int v) {
        endwin();
 
        fprintf(stderr, "Interrupted!\n");
        exit(-2);
}
 
void    stall_screen(void) {
        erase();
        mvprintw(0,0, "CPU is stalled.  (Q to quit)\n");
}
 
int     main(int argc, char **argv) {
        // FPGAOPEN(m_fpga);
        ZIPPY   *zip; //
 
        int     skp=0, port = FPGAPORT;
        bool    use_usb = true;
 
        skp=1;
        for(int argn=0; argn<argc-skp; argn++) {
                if (argv[argn+skp][0] == '-') {
                        if (argv[argn+skp][1] == 'u')
                                use_usb = true;
                        else if (argv[argn+skp][1] == 'p') {
                                use_usb = false;
                                if (isdigit(argv[argn+skp][2]))
                                        port = atoi(&argv[argn+skp][2]);
                        }
                        skp++; argn--;
                } else
                        argv[argn] = argv[argn+skp];
        } argc -= skp;
 
        if (use_usb)
                m_fpga = new FPGA(new USBI());
        else
                m_fpga = new FPGA(new NETCOMMS(FPGAHOST, port));
        zip = new ZIPPY(m_fpga);
 
 
        initscr();
        raw();
        noecho();
        keypad(stdscr, true);
 
        signal(SIGINT, on_sigint);
 
        int     chv;
        bool    done = false;
 
        zip->halt();
        for(int i=0; (i<5)&&(zip->stalled()); i++)
                ;
        if (!zip->stalled())
                zip->read_state();
        else
                stall_screen();
        while((!done)&&(!gbl_err)) {
                chv = getch();
                switch(chv) {
                case 'g': case 'G':
                        m_fpga->writeio(R_ZIPCTRL, CPU_GO);
                        // We just released the CPU, so we're now done.
                        done = true;
                        break;
                case 'l': case 'L': case CTRL('L'):
                        redrawwin(stdscr);
                case 'm': case 'M':
                        zip->show_user_timers(false);
                        break;
                case 'q': case 'Q': case CTRL('C'):
                case KEY_CANCEL: case KEY_CLOSE: case KEY_EXIT:
                case KEY_ESCAPE:
                        done = true;
                        break;
                case 'r': case 'R':
                        zip->reset();
                        erase();
                        break;
                case 't': case 'T':
                case 's': case 'S':
                        zip->step();
                        break;
                case 'u': case 'U':
                        zip->show_user_timers(true);
                        break;
                case '\r': case  '\n':
                case KEY_IC: case KEY_ENTER:
                        get_value(zip);
                        break;
                case KEY_UP:
                        zip->cursor_up();
                        break;
                case KEY_DOWN:
                        zip->cursor_down();
                        break;
                case KEY_LEFT:
                        zip->cursor_left();
                        break;
                case KEY_RIGHT:
                        zip->cursor_right();
                        break;
                case ERR: case KEY_CLEAR:
                default:
                        ;
                }
 
                if ((done)||(gbl_err))
                        break;
                else if (zip->stalled())
                        stall_screen();
                else
                        zip->read_state();
        }
 
        endwin();
 
        if (gbl_err) {
                printf("Killed on error: could not access bus!\n");
                exit(-2);
        }
}
 

Line No.	Rev	Author	Line
1	5	dgisselq	`///////////////////////////////////////////////////////////////////////////////`
2			`//`
3			`// Filename: zipdbg.cpp`
4			`//`
5			`// Project: Zip CPU -- a small, lightweight, RISC CPU soft core`
6			`//`
7			`// Purpose:`
8			`//`
9			`//`
10			`// Creator: Dan Gisselquist, Ph.D.`
11			`// Gisselquist Tecnology, LLC`
12			`//`
13			`///////////////////////////////////////////////////////////////////////////////`
14			`//`
15			`// Copyright (C) 2015, Gisselquist Technology, LLC`
16			`//`
17			`// This program is free software (firmware): you can redistribute it and/or`
18			`// modify it under the terms of the GNU General Public License as published`
19			`// by the Free Software Foundation, either version 3 of the License, or (at`
20			`// your option) any later version.`
21			`//`
22			`// This program is distributed in the hope that it will be useful, but WITHOUT`
23			`// ANY WARRANTY; without even the implied warranty of MERCHANTIBILITY or`
24			`// FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License`
25			`// for more details.`
26			`//`
27			`// License: GPL, v3, as defined and found on www.gnu.org,`
28			`// http://www.gnu.org/licenses/gpl.html`
29			`//`
30			`//`
31			`///////////////////////////////////////////////////////////////////////////////`
32			`//`
33			`//`
34	7	dgisselq	`//`
35			`// BUGS:`
36			`// - No ability to verify CPU functionality (3rd party simulator)`
37			`// - No ability to set/clear breakpoints`
38			`//`
39			`//`
40			`//`
41	5	dgisselq	`#include <stdlib.h>`
42			`#include <signal.h>`
43			`#include <time.h>`
44			`#include <unistd.h>`
45	7	dgisselq	`#include <string.h>`
46	5	dgisselq
47			`#include <ctype.h>`
48			`#include <ncurses.h>`
49
50			`#include "zopcodes.h"`
51			`#include "zparser.h"`
52			`#include "devbus.h"`
53			`#include "regdefs.h"`
54
55			`#include "usbi.h"`
56			`#include "port.h"`
57
58			`#define CMD_REG 0`
59			`#define CMD_DATA 1`
60			`#define CMD_HALT (1<<10)`
61			`#define CMD_STALL (1<<9)`
62			`#define CMD_STEP (1<<8)`
63			`#define CMD_INT (1<<7)`
64			`#define CMD_RESET (1<<6)`
65
66			`#define KEY_ESCAPE 27`
67			`#define KEY_RETURN 10`
68			`#define CTRL(X) ((X)&0x01f)`
69
70	7	dgisselq	`class SPARSEMEM {`
71			`public:`
72			`bool m_valid;`
73			`unsigned int m_a, m_d;`
74			`};`
75	5	dgisselq
76			`bool gbl_err = false;`
77	7	dgisselq	`class ZIPSTATE {`
78			`public:`
79			`bool m_valid, m_gie, m_last_pc_valid;`
80			`unsigned int m_sR[16], m_uR[16];`
81			`unsigned int m_p[20];`
82			`unsigned int m_last_pc, m_pc, m_sp;`
83			`SPARSEMEM m_smem[5];`
84			`SPARSEMEM m_imem[5];`
85			`ZIPSTATE(void) : m_valid(false), m_last_pc_valid(false) {}`
86	5	dgisselq
87	7	dgisselq	`void step(void) {`
88			`m_last_pc_valid = true;`
89			`m_last_pc = m_pc;`
90			`}`
91			`};`
92
93	5	dgisselq	`// No particular "parameters" need definition or redefinition here.`
94			`class ZIPPY : public DEVBUS {`
95	7	dgisselq	`static const int MAXERR;`
96	5	dgisselq	`typedef DEVBUS::BUSW BUSW;`
97			`DEVBUS *m_fpga;`
98			`int m_cursor;`
99	7	dgisselq	`ZIPSTATE m_state;`
100			`bool m_user_break, m_show_users_timers;`
101	5	dgisselq	`public:`
102	7	dgisselq	`ZIPPY(DEVBUS *fpga) : m_fpga(fpga), m_cursor(0), m_user_break(false),`
103			`m_show_users_timers(false) {}`
104	5	dgisselq
105	7	dgisselq	`void read_raw_state(void) {`
106			`m_state.m_valid = false;`
107			`for(int i=0; i<16; i++)`
108			`m_state.m_sR[i] = cmd_read(i);`
109			`for(int i=0; i<16; i++)`
110			`m_state.m_uR[i] = cmd_read(i+16);`
111			`for(int i=0; i<20; i++)`
112			`m_state.m_p[i] = cmd_read(i+32);`
113
114			`m_state.m_gie = (m_state.m_sR[14] & 0x020);`
115			`m_state.m_pc = (m_state.m_gie) ? (m_state.m_uR[15]):(m_state.m_sR[15]);`
116			`m_state.m_sp = (m_state.m_gie) ? (m_state.m_uR[13]):(m_state.m_sR[13]);`
117
118			`if (m_state.m_last_pc_valid)`
119			`m_state.m_imem[0].m_a = m_state.m_last_pc;`
120			`else`
121			`m_state.m_imem[0].m_a = m_state.m_pc - 1;`
122			`try {`
123			`m_state.m_imem[0].m_d = readio(m_state.m_imem[0].m_a);`
124			`m_state.m_imem[0].m_valid = true;`
125			`} catch(BUSERR be) {`
126			`m_state.m_imem[0].m_valid = false;`
127			`}`
128			`m_state.m_imem[1].m_a = m_state.m_pc;`
129			`try {`
130			`m_state.m_imem[1].m_d = readio(m_state.m_imem[1].m_a);`
131			`m_state.m_imem[1].m_valid = true;`
132			`} catch(BUSERR be) {`
133			`m_state.m_imem[1].m_valid = false;`
134			`}`
135
136			`for(int i=1; i<4; i++) {`
137			`if (!m_state.m_imem[i].m_valid) {`
138			`m_state.m_imem[i+1].m_valid = false;`
139			`m_state.m_imem[i+1].m_a = m_state.m_imem[i].m_a+1;`
140			`continue;`
141			`}`
142			`m_state.m_imem[i+1].m_a = zop_early_branch(`
143			`m_state.m_imem[i].m_a,`
144			`m_state.m_imem[i].m_d);`
145			`try {`
146			`m_state.m_imem[i+1].m_d = readio(m_state.m_imem[i+1].m_a);`
147			`m_state.m_imem[i+1].m_valid = true;`
148			`} catch(BUSERR be) {`
149			`m_state.m_imem[i+1].m_valid = false;`
150			`}`
151			`}`
152
153			`m_state.m_smem[0].m_a = m_state.m_sp;`
154			`for(int i=1; i<5; i++)`
155			`m_state.m_smem[i].m_a = m_state.m_smem[i-1].m_a+1;`
156			`for(int i=0; i<5; i++) {`
157			`try {`
158			`m_state.m_smem[i].m_d = readio(m_state.m_smem[i].m_a);`
159			`m_state.m_smem[i].m_valid = true;`
160			`} catch(BUSERR be) {`
161			`m_state.m_smem[i].m_valid = false;`
162			`}`
163			`}`
164			`m_state.m_valid = true;`
165			`}`
166
167	5	dgisselq	`void kill(void) { m_fpga->kill(); }`
168			`void close(void) { m_fpga->close(); }`
169			`void writeio(const BUSW a, const BUSW v) { m_fpga->writeio(a, v); }`
170			`BUSW readio(const BUSW a) { return m_fpga->readio(a); }`
171			`void readi(const BUSW a, const int len, BUSW *buf) {`
172			`return m_fpga->readi(a, len, buf); }`
173			`void readz(const BUSW a, const int len, BUSW *buf) {`
174			`return m_fpga->readz(a, len, buf); }`
175			`void writei(const BUSW a, const int len, const BUSW *buf) {`
176			`return m_fpga->writei(a, len, buf); }`
177			`void writez(const BUSW a, const int len, const BUSW *buf) {`
178			`return m_fpga->writez(a, len, buf); }`
179			`bool poll(void) { return m_fpga->poll(); }`
180			`void usleep(unsigned ms) { m_fpga->usleep(ms); }`
181			`void wait(void) { m_fpga->wait(); }`
182			`bool bus_err(void) const { return m_fpga->bus_err(); }`
183			`void reset_err(void) { m_fpga->reset_err(); }`
184			`void clear(void) { m_fpga->clear(); }`
185
186			`void reset(void) { writeio(R_ZIPCTRL, CPU_RESET\|CPU_HALT); }`
187	7	dgisselq	`void step(void) { writeio(R_ZIPCTRL, CPU_STEP); m_state.step(); }`
188	5	dgisselq	`void go(void) { writeio(R_ZIPCTRL, CPU_GO); }`
189			`void halt(void) { writeio(R_ZIPCTRL, CPU_HALT); }`
190			`bool stalled(void) { return ((readio(R_ZIPCTRL)&CPU_STALL)==0); }`
191
192	7	dgisselq	`void show_user_timers(bool v) {`
193			`m_show_users_timers = v;`
194			`}`
195
196	5	dgisselq	`void showval(int y, int x, const char *lbl, unsigned int v, bool c) {`
197			`if (c)`
198			`mvprintw(y,x, ">%s> 0x%08x<", lbl, v);`
199			`else`
200			`mvprintw(y,x, " %s: 0x%08x ", lbl, v);`
201			`}`
202
203			`void dispreg(int y, int x, const char *n, unsigned int v, bool c) {`
204			`// 4,4,8,1 = 17 of 20, +2 = 18`
205			`if (c)`
206			`mvprintw(y, x, ">%s> 0x%08x<", n, v);`
207			`else`
208			`mvprintw(y, x, " %s: 0x%08x ", n, v);`
209			`}`
210
211	7	dgisselq	`int showins(int y, const char *lbl, const unsigned int pcidx) {`
212			`char la[80], lb[80];`
213			`int r = y-1;`
214	5	dgisselq
215	7	dgisselq	`mvprintw(y, 0, "%s0x%08x", lbl, m_state.m_imem[pcidx].m_a);`
216	5	dgisselq
217	7	dgisselq	`if (m_state.m_gie) attroff(A_BOLD);`
218	5	dgisselq	`else attron(A_BOLD);`
219
220	7	dgisselq	`la[0] = '\0';`
221			`lb[0] = '\0';`
222			`if (m_state.m_imem[pcidx].m_valid) {`
223			`zipi_to_string(m_state.m_imem[pcidx].m_d, la, lb);`
224			`printw(" 0x%08x", m_state.m_imem[pcidx].m_d);`
225			`printw(" %-25s", la);`
226			`if (lb[0]) {`
227			`mvprintw(y-1, 0, "%s", lbl);`
228			`mvprintw(y-1, strlen(lbl)+10+3+8+2, "%-25s", lb);`
229			`r--;`
230			`}`
231			`} else {`
232			`printw(" 0x-------- %-25s", "(Bus Error)");`
233	5	dgisselq	`}`
234			`attroff(A_BOLD);`
235	7	dgisselq
236			`return r;`
237	5	dgisselq	`}`
238
239	7	dgisselq	`void showstack(int y, const char *lbl, const unsigned int idx) {`
240			`mvprintw(y, 27+26, "%s%08x ", lbl, m_state.m_smem[idx].m_a);`
241
242			`if (m_state.m_gie) attroff(A_BOLD);`
243			`else attron(A_BOLD);`
244
245			`if (m_state.m_smem[idx].m_valid)`
246			`printw("0x%08x", m_state.m_smem[idx].m_d);`
247			`else`
248			`printw("(Bus Err)");`
249			`attroff(A_BOLD);`
250			`}`
251
252	5	dgisselq	`unsigned int cmd_read(unsigned int a) {`
253	7	dgisselq	`int errcount = 0;`
254			`unsigned int s;`
255	5	dgisselq
256			`writeio(R_ZIPCTRL, CMD_HALT\|(a&0x3f));`
257	7	dgisselq	`while((((s=readio(R_ZIPCTRL))&CPU_STALL)== 0)&&(errcount<MAXERR)`
258			`&&(!m_user_break))`
259	5	dgisselq	`errcount++;`
260	7	dgisselq	`if (m_user_break) {`
261			`endwin();`
262			`exit(EXIT_SUCCESS);`
263			`} else if (errcount >= MAXERR) {`
264			`endwin();`
265			`printf("ERR: errcount(%d) >= MAXERR on cmd_read(a=%2x)\n", errcount, a);`
266			`printf("ZIPCTRL = 0x%08x", s);`
267			`if ((s & 0x0200)==0) printf(" STALL");`
268			`if (s & 0x0400) printf(" HALTED");`
269			`if ((s & 0x03000)==0x01000)`
270			`printf(" SW-HALT");`
271			`else {`
272			`if (s & 0x01000) printf(" SLEEPING");`
273			`if (s & 0x02000) printf(" GIE(UsrMode)");`
274			`} printf("\n");`
275			`exit(EXIT_FAILURE);`
276	5	dgisselq	`}`
277	7	dgisselq	`return readio(R_ZIPDATA);`
278	5	dgisselq	`}`
279
280			`void cmd_write(unsigned int a, int v) {`
281	7	dgisselq	`int errcount = 0;`
282			`unsigned int s;`
283	5	dgisselq
284			`writeio(R_ZIPCTRL, CMD_HALT\|(a&0x3f));`
285	7	dgisselq	`while((((s=readio(R_ZIPCTRL))&CPU_STALL)== 0)&&(errcount<MAXERR)`
286			`&&(!m_user_break))`
287	5	dgisselq	`errcount++;`
288	7	dgisselq	`if (m_user_break) {`
289			`endwin();`
290			`exit(EXIT_SUCCESS);`
291			`} else if (errcount >= MAXERR) {`
292			`endwin();`
293			`printf("ERR: errcount(%d) >= MAXERR on cmd_read(a=%2x)\n", errcount, a);`
294			`printf("ZIPCTRL = 0x%08x", s);`
295			`if ((s & 0x0200)==0) printf(" STALL");`
296			`if (s & 0x0400) printf(" HALTED");`
297			`if ((s & 0x03000)==0x01000)`
298			`printf(" SW-HALT");`
299			`else {`
300			`if (s & 0x01000) printf(" SLEEPING");`
301			`if (s & 0x02000) printf(" GIE(UsrMode)");`
302			`} printf("\n");`
303			`exit(EXIT_FAILURE);`
304			`}`
305
306			`writeio(R_ZIPDATA, (unsigned int)v);`
307	5	dgisselq	`}`
308
309			`void read_state(void) {`
310			`int ln= 0;`
311			`bool gie;`
312
313	7	dgisselq	`read_raw_state();`
314
315	5	dgisselq	`if (m_cursor < 0)`
316			`m_cursor = 0;`
317			`else if (m_cursor >= 44)`
318			`m_cursor = 43;`
319
320			`mvprintw(ln,0, "Peripherals");`
321	7	dgisselq	`mvprintw(ln,30,"%-50s", "CPU State: ");`
322	5	dgisselq	`{`
323			`unsigned int v = readio(R_ZIPCTRL);`
324	7	dgisselq	`mvprintw(ln,41, "0x%08x ", v);`
325			`// if (v & 0x010000)`
326			`// printw("INT ");`
327	5	dgisselq	`if ((v & 0x003000) == 0x03000)`
328	7	dgisselq	`printw("Sleeping ");`
329			`else if (v & 0x001000)`
330	5	dgisselq	`printw("Halted ");`
331			`else if (v & 0x002000)`
332	7	dgisselq	`printw("User Mode ");`
333			`else`
334			`printw("Supervisor mode ");`
335			`if (v& 0x0200) {`
336			`v = m_state.m_sR[15];`
337
338			`} else printw("Stalled ");`
339			`// if (v & 0x008000)`
340			`// printw("Break-Enabled ");`
341			`// if (v & 0x000080)`
342			`// printw("PIC Enabled ");`
343	5	dgisselq	`} ln++;`
344	7	dgisselq	`showval(ln, 0, "PIC ", m_state.m_p[0], (m_cursor==0));`
345			`showval(ln,20, "WDT ", m_state.m_p[1], (m_cursor==1));`
346			`showval(ln,40, "WBUS", m_state.m_p[2], (m_cursor==2));`
347			`showval(ln,60, "PIC2", m_state.m_p[3], (m_cursor==3));`
348	5	dgisselq	`ln++;`
349	7	dgisselq	`showval(ln, 0, "TMRA", m_state.m_p[4], (m_cursor==4));`
350			`showval(ln,20, "TMRB", m_state.m_p[5], (m_cursor==5));`
351			`showval(ln,40, "TMRC", m_state.m_p[6], (m_cursor==6));`
352			`showval(ln,60, "JIF ", m_state.m_p[7], (m_cursor==7));`
353	5	dgisselq
354			`ln++;`
355	7	dgisselq	`if (!m_show_users_timers) {`
356			`showval(ln, 0, "MTSK", m_state.m_p[12], (m_cursor==8));`
357			`showval(ln,20, "MOST", m_state.m_p[13], (m_cursor==9));`
358			`showval(ln,40, "MPST", m_state.m_p[14], (m_cursor==10));`
359			`showval(ln,60, "MICT", m_state.m_p[15], (m_cursor==11));`
360			`} else {`
361			`showval(ln, 0, "UTSK", m_state.m_p[ 8], (m_cursor==8));`
362			`showval(ln,20, "UMST", m_state.m_p[ 9], (m_cursor==9));`
363			`showval(ln,40, "UPST", m_state.m_p[10], (m_cursor==10));`
364			`showval(ln,60, "UICT", m_state.m_p[11], (m_cursor==11));`
365			`}`
366	5	dgisselq
367			`ln++;`
368			`ln++;`
369	7	dgisselq	`unsigned int cc = m_state.m_sR[14];`
370	5	dgisselq	`gie = (cc & 0x020);`
371			`if (gie)`
372			`attroff(A_BOLD);`
373			`else`
374			`attron(A_BOLD);`
375			`mvprintw(ln, 0, "Supervisor Registers");`
376			`ln++;`
377
378	7	dgisselq	`dispreg(ln, 0, "sR0 ", m_state.m_sR[0], (m_cursor==12));`
379			`dispreg(ln,20, "sR1 ", m_state.m_sR[1], (m_cursor==13));`
380			`dispreg(ln,40, "sR2 ", m_state.m_sR[2], (m_cursor==14));`
381			`dispreg(ln,60, "sR3 ", m_state.m_sR[3], (m_cursor==15)); ln++;`
382	5	dgisselq
383	7	dgisselq	`dispreg(ln, 0, "sR4 ", m_state.m_sR[4], (m_cursor==16));`
384			`dispreg(ln,20, "sR5 ", m_state.m_sR[5], (m_cursor==17));`
385			`dispreg(ln,40, "sR6 ", m_state.m_sR[6], (m_cursor==18));`
386			`dispreg(ln,60, "sR7 ", m_state.m_sR[7], (m_cursor==19)); ln++;`
387	5	dgisselq
388	7	dgisselq	`dispreg(ln, 0, "sR8 ", m_state.m_sR[ 8], (m_cursor==20));`
389			`dispreg(ln,20, "sR9 ", m_state.m_sR[ 9], (m_cursor==21));`
390			`dispreg(ln,40, "sR10", m_state.m_sR[10], (m_cursor==22));`
391			`dispreg(ln,60, "sR11", m_state.m_sR[11], (m_cursor==23)); ln++;`
392	5	dgisselq
393	7	dgisselq	`dispreg(ln, 0, "sR12", m_state.m_sR[12], (m_cursor==24));`
394			`dispreg(ln,20, "sSP ", m_state.m_sR[13], (m_cursor==25));`
395	5	dgisselq
396	7	dgisselq	`mvprintw(ln,40, "%ssCC :%s%s%s%s%s%s%s",`
397			`(m_cursor == 26)?">":" ",`
398	31	dgisselq	`(cc&0x1000)?"FE":"", // Floating point exception`
399			`(cc&0x0800)?"DV":"", // Division by zero`
400			`(cc&0x0400)?"BE":"", // Bus Error`
401			`(cc&0x0200)?"TP":"", // Trap`
402			`(cc&0x0100)?"IL":"", // Illegal instruction`
403			`(cc&0x0080)?"BK":"", // Break`
404			`((gie==0)&&(cc&0x0010))?"HLT":""); // Halted`
405	7	dgisselq	`mvprintw(ln,54,"%s%s%s%s",`
406	5	dgisselq	`(cc&8)?"V":" ",`
407			`(cc&4)?"N":" ",`
408			`(cc&2)?"C":" ",`
409			`(cc&1)?"Z":" ");`
410	7	dgisselq	`dispreg(ln,60, "sPC ", m_state.m_sR[15], (m_cursor==27));`
411	5	dgisselq	`ln++;`
412
413			`if (gie)`
414			`attron(A_BOLD);`
415			`else`
416			`attroff(A_BOLD);`
417			`mvprintw(ln, 0, "User Registers"); ln++;`
418	7	dgisselq	`dispreg(ln, 0, "uR0 ", m_state.m_uR[0], (m_cursor==28));`
419			`dispreg(ln,20, "uR1 ", m_state.m_uR[1], (m_cursor==29));`
420			`dispreg(ln,40, "uR2 ", m_state.m_uR[2], (m_cursor==30));`
421			`dispreg(ln,60, "uR3 ", m_state.m_uR[3], (m_cursor==31)); ln++;`
422	5	dgisselq
423	7	dgisselq	`dispreg(ln, 0, "uR4 ", m_state.m_uR[4], (m_cursor==32));`
424			`dispreg(ln,20, "uR5 ", m_state.m_uR[5], (m_cursor==33));`
425			`dispreg(ln,40, "uR6 ", m_state.m_uR[6], (m_cursor==34));`
426			`dispreg(ln,60, "uR7 ", m_state.m_uR[7], (m_cursor==35)); ln++;`
427	5	dgisselq
428	7	dgisselq	`dispreg(ln, 0, "uR8 ", m_state.m_uR[8], (m_cursor==36));`
429			`dispreg(ln,20, "uR9 ", m_state.m_uR[9], (m_cursor==37));`
430			`dispreg(ln,40, "uR10", m_state.m_uR[10], (m_cursor==38));`
431			`dispreg(ln,60, "uR11", m_state.m_uR[11], (m_cursor==39)); ln++;`
432	5	dgisselq
433	7	dgisselq	`dispreg(ln, 0, "uR12", m_state.m_uR[12], (m_cursor==40));`
434			`dispreg(ln,20, "uSP ", m_state.m_uR[13], (m_cursor==41));`
435			`cc = m_state.m_uR[14];`
436			`mvprintw(ln,40, "%suCC :%s%s%s%s%s%s%s",`
437			`(m_cursor == 42)?">":" ",`
438	31	dgisselq	`(cc&0x1000)?"FE":"", // Floating point Exception`
439			`(cc&0x0800)?"DV":"", // Division by zero`
440			`(cc&0x0400)?"BE":"", // Bus Error`
441			`(cc&0x0200)?"TP":"", // Trap`
442			`(cc&0x0100)?"IL":"", // Illegal instruction`
443			`(cc&0x0040)?"ST":"", // Single-step`
444			`((gie)&&(cc&0x0010))?"SL":""); // Sleep`
445	7	dgisselq	`mvprintw(ln,54,"%s%s%s%s",`
446	5	dgisselq	`(cc&8)?"V":" ",`
447			`(cc&4)?"N":" ",`
448			`(cc&2)?"C":" ",`
449			`(cc&1)?"Z":" ");`
450	7	dgisselq	`dispreg(ln,60, "uPC ", m_state.m_uR[15], (m_cursor==43));`
451	5	dgisselq
452			`attroff(A_BOLD);`
453	7	dgisselq	`ln+=3;`
454	5	dgisselq
455	7	dgisselq	`showins(ln+4, " ", 0);`
456			`{`
457			`int lclln = ln+3;`
458			`for(int i=1; i<5; i++)`
459			`lclln = showins(lclln, (i==1)?">":" ", i);`
460			`for(int i=0; i<5; i++)`
461			`showstack(ln+i, (i==0)?">":" ", i);`
462			`}`
463	5	dgisselq	`}`
464
465			`void cursor_up(void) {`
466			`if (m_cursor > 3)`
467			`m_cursor -= 4;`
468			`} void cursor_down(void) {`
469			`if (m_cursor < 40)`
470			`m_cursor += 4;`
471			`} void cursor_left(void) {`
472			`if (m_cursor > 0)`
473			`m_cursor--;`
474			`else m_cursor = 43;`
475			`} void cursor_right(void) {`
476			`if (m_cursor < 43)`
477			`m_cursor++;`
478			`else m_cursor = 0;`
479			`}`
480
481			`int cursor(void) { return m_cursor; }`
482			`};`
483
484	7	dgisselq	`const int ZIPPY::MAXERR = 100000;`
485
486	5	dgisselq	`FPGA *m_fpga;`
487
488			`void get_value(ZIPPY *zip) {`
489			`int wy, wx, ra;`
490			`int c = zip->cursor();`
491
492			`wx = (c & 0x03) * 20 + 9 + 1;`
493			`wy = (c >> 2);`
494			`if (wy >= 3+4)`
495			`wy++;`
496			`if (wy > 3)`
497			`wy += 2;`
498			`wy++;`
499
500			`if (c >= 12)`

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