/*
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/*
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Author : Shay Gal-On, EEMBC
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Author : Shay Gal-On, EEMBC
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This file is part of EEMBC(R) and CoreMark(TM), which are Copyright (C) 2009
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This file is part of EEMBC(R) and CoreMark(TM), which are Copyright (C) 2009
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All rights reserved.
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All rights reserved.
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EEMBC CoreMark Software is a product of EEMBC and is provided under the terms of the
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EEMBC CoreMark Software is a product of EEMBC and is provided under the terms of the
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CoreMark License that is distributed with the official EEMBC COREMARK Software release.
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CoreMark License that is distributed with the official EEMBC COREMARK Software release.
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If you received this EEMBC CoreMark Software without the accompanying CoreMark License,
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If you received this EEMBC CoreMark Software without the accompanying CoreMark License,
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you must discontinue use and download the official release from www.coremark.org.
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you must discontinue use and download the official release from www.coremark.org.
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Also, if you are publicly displaying scores generated from the EEMBC CoreMark software,
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Also, if you are publicly displaying scores generated from the EEMBC CoreMark software,
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make sure that you are in compliance with Run and Reporting rules specified in the accompanying readme.txt file.
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make sure that you are in compliance with Run and Reporting rules specified in the accompanying readme.txt file.
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EEMBC
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EEMBC
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4354 Town Center Blvd. Suite 114-200
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4354 Town Center Blvd. Suite 114-200
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El Dorado Hills, CA, 95762
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El Dorado Hills, CA, 95762
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*/
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*/
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#include "coremark.h"
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#include "coremark.h"
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/* local functions */
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/* local functions */
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enum CORE_STATE core_state_transition( ee_u8 **instr , ee_u32 *transition_count);
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enum CORE_STATE core_state_transition(ee_u8 ** instr,
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ee_u32 * transition_count);
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/*
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/*
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Topic: Description
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Topic: Description
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Simple state machines like this one are used in many embedded products.
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Simple state machines like this one are used in many embedded products.
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For more complex state machines, sometimes a state transition table implementation is used instead,
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For more complex state machines, sometimes a state transition table implementation is used instead,
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trading speed of direct coding for ease of maintenance.
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trading speed of direct coding for ease of maintenance.
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Since the main goal of using a state machine in CoreMark is to excercise the switch/if behaviour,
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Since the main goal of using a state machine in CoreMark is to excercise the switch/if behaviour,
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we are using a small moore machine.
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we are using a small moore machine.
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In particular, this machine tests type of string input,
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In particular, this machine tests type of string input,
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trying to determine whether the input is a number or something else.
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trying to determine whether the input is a number or something else.
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(see core_state.png).
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(see core_state.png).
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*/
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*/
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/* Function: core_bench_state
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/* Function: core_bench_state
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Benchmark function
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Benchmark function
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Go over the input twice, once direct, and once after introducing some corruption.
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Go over the input twice, once direct, and once after introducing some corruption.
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*/
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*/
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ee_u16 core_bench_state(ee_u32 blksize, ee_u8 *memblock,
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ee_u16 core_bench_state(ee_u32 blksize, ee_u8 * memblock,
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ee_s16 seed1, ee_s16 seed2, ee_s16 step, ee_u16 crc)
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ee_s16 seed1, ee_s16 seed2, ee_s16 step, ee_u16 crc)
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{
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{
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ee_u32 final_counts[NUM_CORE_STATES];
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ee_u32 final_counts[NUM_CORE_STATES];
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ee_u32 track_counts[NUM_CORE_STATES];
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ee_u32 track_counts[NUM_CORE_STATES];
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ee_u8 *p=memblock;
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ee_u8 *p = memblock;
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ee_u32 i;
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ee_u32 i;
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#if CORE_DEBUG
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#if CORE_DEBUG
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ee_printf("State Bench: %d,%d,%d,%04x\n",seed1,seed2,step,crc);
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ee_printf("State Bench: %d,%d,%d,%04x\n", seed1, seed2, step, crc);
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#endif
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#endif
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for (i=0; i<NUM_CORE_STATES; i++) {
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for (i = 0; i < NUM_CORE_STATES; i++) {
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final_counts[i]=track_counts[i]=0;
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final_counts[i] = track_counts[i] = 0;
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}
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}
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/* run the state machine over the input */
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/* run the state machine over the input */
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while (*p!=0) {
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while (*p!=0) {
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enum CORE_STATE fstate=core_state_transition(&p,track_counts);
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enum CORE_STATE fstate =
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core_state_transition(&p, track_counts);
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final_counts[fstate]++;
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final_counts[fstate]++;
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#if CORE_DEBUG
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#if CORE_DEBUG
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ee_printf("%d,",fstate);
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ee_printf("%d,", fstate);
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}
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}
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ee_printf("\n");
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ee_printf("\n");
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#else
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#else
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}
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}
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#endif
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#endif
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p=memblock;
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p = memblock;
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while (p < (memblock+blksize)) { /* insert some corruption */
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while (p < (memblock + blksize)) { /* insert some corruption */
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if (*p!=',')
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if (*p != ',')
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*p^=(ee_u8)seed1;
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*p ^= (ee_u8) seed1;
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p+=step;
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p += step;
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}
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}
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p=memblock;
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p = memblock;
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/* run the state machine over the input again */
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/* run the state machine over the input again */
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while (*p!=0) {
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while (*p!=0) {
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enum CORE_STATE fstate=core_state_transition(&p,track_counts);
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enum CORE_STATE fstate =
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core_state_transition(&p, track_counts);
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final_counts[fstate]++;
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final_counts[fstate]++;
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#if CORE_DEBUG
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#if CORE_DEBUG
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ee_printf("%d,",fstate);
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ee_printf("%d,", fstate);
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}
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}
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ee_printf("\n");
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ee_printf("\n");
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#else
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#else
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}
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}
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#endif
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#endif
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p=memblock;
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p = memblock;
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while (p < (memblock+blksize)) { /* undo corruption is seed1 and seed2 are equal */
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while (p < (memblock + blksize)) { /* undo corruption is seed1 and seed2 are equal */
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if (*p!=',')
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if (*p != ',')
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*p^=(ee_u8)seed2;
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*p ^= (ee_u8) seed2;
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p+=step;
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p += step;
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}
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}
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/* end timing */
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/* end timing */
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for (i=0; i<NUM_CORE_STATES; i++) {
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for (i = 0; i < NUM_CORE_STATES; i++) {
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crc=crcu32(final_counts[i],crc);
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crc = crcu32(final_counts[i], crc);
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crc=crcu32(track_counts[i],crc);
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crc = crcu32(track_counts[i], crc);
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}
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}
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return crc;
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return crc;
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}
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}
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/* Default initialization patterns */
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/* Default initialization patterns */
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static ee_u8 *intpat[4] ={(ee_u8 *)"5012",(ee_u8 *)"1234",(ee_u8 *)"-874",(ee_u8 *)"+122"};
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static ee_u8 *intpat[4] =
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static ee_u8 *floatpat[4]={(ee_u8 *)"35.54400",(ee_u8 *)".1234500",(ee_u8 *)"-110.700",(ee_u8 *)"+0.64400"};
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{ (ee_u8 *) "5012", (ee_u8 *) "1234", (ee_u8 *) "-874", (ee_u8 *) "+122" };
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static ee_u8 *scipat[4] ={(ee_u8 *)"5.500e+3",(ee_u8 *)"-.123e-2",(ee_u8 *)"-87e+832",(ee_u8 *)"+0.6e-12"};
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static ee_u8 *floatpat[4] =
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static ee_u8 *errpat[4] ={(ee_u8 *)"T0.3e-1F",(ee_u8 *)"-T.T++Tq",(ee_u8 *)"1T3.4e4z",(ee_u8 *)"34.0e-T^"};
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{ (ee_u8 *) "35.54400", (ee_u8 *) ".1234500", (ee_u8 *) "-110.700",
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(ee_u8 *) "+0.64400" };
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static ee_u8 *scipat[4] =
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{ (ee_u8 *) "5.500e+3", (ee_u8 *) "-.123e-2", (ee_u8 *) "-87e+832",
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(ee_u8 *) "+0.6e-12" };
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static ee_u8 *errpat[4] =
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{ (ee_u8 *) "T0.3e-1F", (ee_u8 *) "-T.T++Tq", (ee_u8 *) "1T3.4e4z",
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(ee_u8 *) "34.0e-T^" };
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/* Function: core_init_state
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/* Function: core_init_state
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Initialize the input data for the state machine.
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Initialize the input data for the state machine.
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Populate the input with several predetermined strings, interspersed.
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Populate the input with several predetermined strings, interspersed.
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Actual patterns chosen depend on the seed parameter.
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Actual patterns chosen depend on the seed parameter.
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Note:
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Note:
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The seed parameter MUST be supplied from a source that cannot be determined at compile time
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The seed parameter MUST be supplied from a source that cannot be determined at compile time
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*/
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*/
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void core_init_state(ee_u32 size, ee_s16 seed, ee_u8 *p) {
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void core_init_state(ee_u32 size, ee_s16 seed, ee_u8 * p)
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{
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ee_u32 total=0,next=0,i;
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ee_u32 total=0,next=0,i;
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ee_u8 *buf=0;
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ee_u8 *buf = 0;
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#if CORE_DEBUG
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#if CORE_DEBUG
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ee_u8 *start=p;
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ee_u8 *start = p;
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ee_printf("State: %d,%d\n",size,seed);
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ee_printf("State: %d,%d\n", size, seed);
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#endif
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#endif
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size--;
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size--;
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next=0;
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next = 0;
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while ((total+next+1)<size) {
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while ((total + next + 1) < size) {
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if (next>0) {
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if (next > 0) {
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for(i=0;i<next;i++)
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for (i = 0; i < next; i++)
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*(p+total+i)=buf[i];
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*(p + total + i) = buf[i];
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*(p+total+i)=',';
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*(p + total + i) = ',';
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total+=next+1;
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total += next + 1;
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}
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}
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seed++;
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seed++;
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switch (seed & 0x7) {
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switch (seed & 0x7) {
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case 0: /* int */
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case 0: /* int */
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case 1: /* int */
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case 1: /* int */
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case 2: /* int */
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case 2: /* int */
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buf=intpat[(seed>>3) & 0x3];
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buf = intpat[(seed >> 3) & 0x3];
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next=4;
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next = 4;
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break;
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break;
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case 3: /* float */
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case 3: /* float */
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case 4: /* float */
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case 4: /* float */
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buf=floatpat[(seed>>3) & 0x3];
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buf = floatpat[(seed >> 3) & 0x3];
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next=8;
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next = 8;
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break;
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break;
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case 5: /* scientific */
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case 5: /* scientific */
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case 6: /* scientific */
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case 6: /* scientific */
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buf=scipat[(seed>>3) & 0x3];
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buf = scipat[(seed >> 3) & 0x3];
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next=8;
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next = 8;
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break;
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break;
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case 7: /* invalid */
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case 7: /* invalid */
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buf=errpat[(seed>>3) & 0x3];
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buf = errpat[(seed >> 3) & 0x3];
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next=8;
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next = 8;
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break;
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break;
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default: /* Never happen, just to make some compilers happy */
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default: /* Never happen, just to make some compilers happy */
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break;
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break;
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}
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}
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}
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}
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size++;
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size++;
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while (total<size) { /* fill the rest with 0 */
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while (total < size) { /* fill the rest with 0 */
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*(p+total)=0;
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*(p + total) = 0;
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total++;
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total++;
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}
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}
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#if CORE_DEBUG
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#if CORE_DEBUG
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ee_printf("State Input: %s\n",start);
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ee_printf("State Input: %s\n", start);
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#endif
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#endif
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}
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}
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static ee_u8 ee_isdigit(ee_u8 c) {
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static ee_u8 ee_isdigit(ee_u8 c)
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{
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ee_u8 retval;
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ee_u8 retval;
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retval = ((c>='0') & (c<='9')) ? 1 : 0;
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retval = ((c >= '0') & (c <= '9')) ? 1 : 0;
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return retval;
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return retval;
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}
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}
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/* Function: core_state_transition
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/* Function: core_state_transition
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Actual state machine.
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Actual state machine.
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The state machine will continue scanning until either:
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The state machine will continue scanning until either:
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1 - an invalid input is detcted.
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1 - an invalid input is detcted.
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2 - a valid number has been detected.
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2 - a valid number has been detected.
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The input pointer is updated to point to the end of the token, and the end state is returned (either specific format determined or invalid).
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The input pointer is updated to point to the end of the token, and the end state is returned (either specific format determined or invalid).
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*/
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*/
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enum CORE_STATE core_state_transition( ee_u8 **instr , ee_u32 *transition_count) {
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enum CORE_STATE core_state_transition(ee_u8 ** instr, ee_u32 * transition_count)
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ee_u8 *str=*instr;
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{
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ee_u8 *str = *instr;
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ee_u8 NEXT_SYMBOL;
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ee_u8 NEXT_SYMBOL;
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enum CORE_STATE state=CORE_START;
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enum CORE_STATE state = CORE_START;
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for( ; *str && state != CORE_INVALID; str++ ) {
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for (; *str && state != CORE_INVALID; str++) {
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NEXT_SYMBOL = *str;
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NEXT_SYMBOL = *str;
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if (NEXT_SYMBOL==',') /* end of this input */ {
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if (NEXT_SYMBOL == ',') { /* end of this input */
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str++;
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str++;
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break;
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break;
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}
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}
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switch(state) {
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switch (state) {
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case CORE_START:
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case CORE_START:
|
if(ee_isdigit(NEXT_SYMBOL)) {
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if (ee_isdigit(NEXT_SYMBOL)) {
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state = CORE_INT;
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state = CORE_INT;
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}
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} else if (NEXT_SYMBOL == '+' || NEXT_SYMBOL == '-') {
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else if( NEXT_SYMBOL == '+' || NEXT_SYMBOL == '-' ) {
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state = CORE_S1;
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state = CORE_S1;
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}
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} else if (NEXT_SYMBOL == '.') {
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else if( NEXT_SYMBOL == '.' ) {
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state = CORE_FLOAT;
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state = CORE_FLOAT;
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}
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} else {
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else {
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state = CORE_INVALID;
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state = CORE_INVALID;
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transition_count[CORE_INVALID]++;
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transition_count[CORE_INVALID]++;
|
}
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}
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transition_count[CORE_START]++;
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transition_count[CORE_START]++;
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break;
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break;
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case CORE_S1:
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case CORE_S1:
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if(ee_isdigit(NEXT_SYMBOL)) {
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if (ee_isdigit(NEXT_SYMBOL)) {
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state = CORE_INT;
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state = CORE_INT;
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transition_count[CORE_S1]++;
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transition_count[CORE_S1]++;
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}
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} else if (NEXT_SYMBOL == '.') {
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else if( NEXT_SYMBOL == '.' ) {
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state = CORE_FLOAT;
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state = CORE_FLOAT;
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transition_count[CORE_S1]++;
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transition_count[CORE_S1]++;
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}
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} else {
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else {
|
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state = CORE_INVALID;
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state = CORE_INVALID;
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transition_count[CORE_S1]++;
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transition_count[CORE_S1]++;
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}
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}
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break;
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break;
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case CORE_INT:
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case CORE_INT:
|
if( NEXT_SYMBOL == '.' ) {
|
if (NEXT_SYMBOL == '.') {
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state = CORE_FLOAT;
|
state = CORE_FLOAT;
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transition_count[CORE_INT]++;
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transition_count[CORE_INT]++;
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}
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} else if (!ee_isdigit(NEXT_SYMBOL)) {
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else if(!ee_isdigit(NEXT_SYMBOL)) {
|
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state = CORE_INVALID;
|
state = CORE_INVALID;
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transition_count[CORE_INT]++;
|
transition_count[CORE_INT]++;
|
}
|
}
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break;
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break;
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case CORE_FLOAT:
|
case CORE_FLOAT:
|
if( NEXT_SYMBOL == 'E' || NEXT_SYMBOL == 'e' ) {
|
if (NEXT_SYMBOL == 'E' || NEXT_SYMBOL == 'e') {
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state = CORE_S2;
|
state = CORE_S2;
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transition_count[CORE_FLOAT]++;
|
transition_count[CORE_FLOAT]++;
|
}
|
} else if (!ee_isdigit(NEXT_SYMBOL)) {
|
else if(!ee_isdigit(NEXT_SYMBOL)) {
|
|
state = CORE_INVALID;
|
state = CORE_INVALID;
|
transition_count[CORE_FLOAT]++;
|
transition_count[CORE_FLOAT]++;
|
}
|
}
|
break;
|
break;
|
case CORE_S2:
|
case CORE_S2:
|
if( NEXT_SYMBOL == '+' || NEXT_SYMBOL == '-' ) {
|
if (NEXT_SYMBOL == '+' || NEXT_SYMBOL == '-') {
|
state = CORE_EXPONENT;
|
state = CORE_EXPONENT;
|
transition_count[CORE_S2]++;
|
transition_count[CORE_S2]++;
|
}
|
} else {
|
else {
|
|
state = CORE_INVALID;
|
state = CORE_INVALID;
|
transition_count[CORE_S2]++;
|
transition_count[CORE_S2]++;
|
}
|
}
|
break;
|
break;
|
case CORE_EXPONENT:
|
case CORE_EXPONENT:
|
if(ee_isdigit(NEXT_SYMBOL)) {
|
if (ee_isdigit(NEXT_SYMBOL)) {
|
state = CORE_SCIENTIFIC;
|
state = CORE_SCIENTIFIC;
|
transition_count[CORE_EXPONENT]++;
|
transition_count[CORE_EXPONENT]++;
|
}
|
} else {
|
else {
|
|
state = CORE_INVALID;
|
state = CORE_INVALID;
|
transition_count[CORE_EXPONENT]++;
|
transition_count[CORE_EXPONENT]++;
|
}
|
}
|
break;
|
break;
|
case CORE_SCIENTIFIC:
|
case CORE_SCIENTIFIC:
|
if(!ee_isdigit(NEXT_SYMBOL)) {
|
if (!ee_isdigit(NEXT_SYMBOL)) {
|
state = CORE_INVALID;
|
state = CORE_INVALID;
|
transition_count[CORE_INVALID]++;
|
transition_count[CORE_INVALID]++;
|
}
|
}
|
break;
|
break;
|
default:
|
default:
|
break;
|
break;
|
}
|
}
|
}
|
}
|
*instr=str;
|
*instr = str;
|
return state;
|
return state;
|
}
|
}
|
|
|