Mercurial > ~dholland > hg > ag > index.cgi
diff anagram/agcore/sums.cpp @ 0:13d2b8934445
Import AnaGram (near-)release tree into Mercurial.
| author | David A. Holland |
|---|---|
| date | Sat, 22 Dec 2007 17:52:45 -0500 |
| parents | |
| children | ec2b657edf13 |
line wrap: on
line diff
--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/anagram/agcore/sums.cpp Sat Dec 22 17:52:45 2007 -0500 @@ -0,0 +1,957 @@ +/* + * AnaGram, A System for Syntax Directed Programming + * Copyright 1993-2002 Parsifal Software. All Rights Reserved. + * Copyright 2006 David A. Holland. All Rights Reserved. + * See the file COPYING for license and usage terms. + * + * sums.syn - read checksum and build information + */ + +#include "port.h" + +#include "agstack.h" +#include "agstring.h" +#include "build.h" +#include "checksum.h" +#include "sums-defs.h" + +//#define INCLUDE_LOGGING +#include "log.h" + +/* + * AnaGram, A System for Syntax Directed Programming + * File generated by: Version 2.40-current, built Oct 30 2007 + * + * AnaGram Parsing Engine + * Copyright 1993-2002 Parsifal Software. All Rights Reserved. + * + * This software is provided 'as-is', without any express or implied + * warranty. In no event will the authors be held liable for any damages + * arising from the use of this software. + * + * Permission is granted to anyone to use this software for any purpose, + * including commercial applications, and to alter it and redistribute it + * freely, subject to the following restrictions: + * + * 1. The origin of this software must not be misrepresented; you must not + * claim that you wrote the original software. If you use this software + * in a product, an acknowledgment in the product documentation would be + * appreciated but is not required. + * 2. Altered source versions must be plainly marked as such, and must not be + * misrepresented as being the original software. + * 3. This notice may not be removed or altered from any source distribution. + */ + +#ifndef SUMS_H_1198348435 +#include "sums.h" +#endif + +#ifndef SUMS_H_1198348435 +#error Mismatched header file +#endif + +#include <ctype.h> +#include <stdio.h> + +#define RULE_CONTEXT (&((PCB).cs[(PCB).ssx])) +#define ERROR_CONTEXT ((PCB).cs[(PCB).error_frame_ssx]) +#define CONTEXT ((PCB).cs[(PCB).ssx]) + + + +parseSumData_pcb_type parseSumData_pcb; +#define PCB parseSumData_pcb + +/* Line 74, sumparse.syn */ +#define SYNTAX_ERROR {\ + char buf[500];\ + sprintf(buf,"%s, line %d, column %d\n", \ + (PCB).error_message, (PCB).line, (PCB).column);\ + LOGV(buf);\ +} + + /* note - cannot compute skiplen at runtime */ + static char sumInfo[512] = "Checksum data:\n"; + static const size_t skiplen = 15; /* length of "Checksum data:\n" */ + + static AgStack<sumentry> sums; + + static char stringbuf[128]; + static size_t stringbufpos; + + AgString build_date, build_os; + + static void addstring(int ch) { + if (stringbufpos < sizeof(stringbuf)-1) { + stringbuf[stringbufpos++] = ch; + stringbuf[stringbufpos] = 0; + } + } + + static void startstring(int ch) { + stringbufpos = 0; + addstring(ch); + } + + static void addsum(summable what, unsigned long len, unsigned long sum, + unsigned long offset) { + sumentry se; + se.what = what; + se.offset = offset; + se.correct.length = len; + se.correct.sum = sum; + se.observed.length = 0; + se.observed.sum = 0; + sums.push(se); + } + + const char *checksums_ok(void) { + LOGSECTION("checksums_ok"); + + char *p = sumInfo; + size_t i; + + init_parseSumData(); + + for (i=0; i<sizeof(sumInfo); i++) { + unsigned char c = (unsigned char)p[i]; + if (i >= skiplen) { + c ^= PADBYTE; + } + //LOGV(c) + PCB.input_code = c; + if (PCB.exit_flag == AG_RUNNING_CODE) parseSumData(); + if (c == 0) break; + } + + if (PCB.exit_flag != AG_SUCCESS_CODE) { + LOGV(PCB.exit_flag); + return "Parse error in checksum data"; + } + + if (sums.size() == 0) { + LOGS("no sums"); + return "Checksum data empty"; + } + + for (i=0; i<sums.size(); i++) { + observeSum(&sums[i]); + } + + for (i=0; i<sums.size(); i++) { + LOGV(sums[i].what) LCV(sums[i].offset); + LOGV(sums[i].correct.length) LCV(sums[i].correct.sum); + LOGV(sums[i].observed.length) LCV(sums[i].observed.sum); + + if (sums[i].observed != sums[i].correct) { + switch (sums[i].what) { + case SUM_AG1: return "Bad checksum for ag1 shared library"; + case SUM_AG: return "Bad checksum for ag executable"; + case SUM_AGCL: return "Bad checksum for agcl executable"; + } + // this shouldn't happen + return "Bad checksum for unknown object (?)"; + } + } + + // ok + return NULL; + } + +#ifndef CONVERT_CASE +#define CONVERT_CASE(c) (c) +#endif +#ifndef TAB_SPACING +#define TAB_SPACING 8 +#endif + +#define ag_rp_1() (build_date = stringbuf) + +#define ag_rp_2() (build_os = stringbuf) + +#define ag_rp_3(w, l, s, o) (addsum(w,l,s,o)) + +#define ag_rp_4() (SUM_AG1) + +#define ag_rp_5() (SUM_AG) + +#define ag_rp_6() (SUM_AGCL) + +#define ag_rp_7(i) (i) + +#define ag_rp_8(i) (i) + +#define ag_rp_9() (0) + +#define ag_rp_10(i) (i) + +#define ag_rp_11(d) (d - '0') + +#define ag_rp_12(i, d) (10*i + d - '0') + +#define ag_rp_13(c) (startstring(c)) + +#define ag_rp_14(c) (addstring(c)) + + +#define READ_COUNTS +#define WRITE_COUNTS +#undef V +#define V(i,t) (*t (&(PCB).vs[(PCB).ssx + i])) +#undef VS +#define VS(i) (PCB).vs[(PCB).ssx + i] + +#ifndef GET_CONTEXT +#define GET_CONTEXT CONTEXT = (PCB).input_context +#endif + +typedef enum { + ag_action_1, + ag_action_2, + ag_action_3, + ag_action_4, + ag_action_5, + ag_action_6, + ag_action_7, + ag_action_8, + ag_action_9, + ag_action_10, + ag_action_11, + ag_action_12 +} ag_parser_action; + + +#ifndef NULL_VALUE_INITIALIZER +#define NULL_VALUE_INITIALIZER = { 0 } +#endif + +static parseSumData_vs_type const ag_null_value NULL_VALUE_INITIALIZER; + +static const unsigned char ag_rpx[] = { + 0, 0, 1, 2, 0, 0, 0, 0, 0, 3, 4, 5, 6, 7, 8, 9, 10, 11, + 12, 13, 14 +}; + +static const unsigned char ag_key_itt[] = { + 0 +}; + +static const unsigned short ag_key_pt[] = { +0 +}; + +static const unsigned char ag_key_ch[] = { + 0, 67,255, 49, 99,255,103,255, 66, 97,255, 66,255, 66,255 +}; + +static const unsigned char ag_key_act[] = { + 0,3,4,0,3,4,1,4,3,2,4,3,4,3,4 +}; + +static const unsigned char ag_key_parm[] = { + 0, 10, 0, 20, 22, 0, 21, 0, 6, 0, 0, 6, 0, 9, 0 +}; + +static const unsigned char ag_key_jmp[] = { + 0, 0, 0, 0, 26, 0, 3, 0, 15, 6, 0, 28, 0, 39, 0 +}; + +static const unsigned char ag_key_index[] = { + 1, 8, 11, 0, 8, 0, 13, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0 +}; + +static const unsigned char ag_key_ends[] = { +104,101,99,107,115,117,109,32,100,97,116,97,58,10,0, +117,105,108,100,32,100,97,116,101,58,0, 108,0, +117,105,108,100,32,100,97,116,101,58,0, 117,105,108,100,32,79,83,58,0, +}; +#define AG_TCV(x) (((int)(x) >= 0 && (int)(x) <= 255) ? ag_tcv[(x)] : 0) + +static const unsigned char ag_tcv[] = { + 5, 0, 0, 0, 0, 0, 0, 0, 0, 0, 8, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 27, 27, 27, 27, + 27, 27, 27, 27, 27, 27, 27, 27, 17, 27, 27, 27, 25, 25, 25, 25, 25, 25, + 25, 25, 25, 25, 27, 27, 27, 15, 27, 27, 24, 27, 27, 27, 27, 27, 27, 27, + 27, 27, 27, 27, 27, 27, 27, 27, 27, 27, 27, 27, 27, 27, 27, 27, 27, 27, + 27, 27, 27, 27, 27, 27, 27, 27, 27, 27, 27, 27, 27, 27, 27, 27, 27, 27, + 27, 27, 27, 27, 27, 27, 27, 27, 27, 27, 27, 27, 27, 27, 27, 27, 27, 27, + 27, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0 +}; + +#ifndef SYNTAX_ERROR +#define SYNTAX_ERROR fprintf(stderr,"%s, line %d, column %d\n", \ + (PCB).error_message, (PCB).line, (PCB).column) +#endif + +#ifndef FIRST_LINE +#define FIRST_LINE 1 +#endif + +#ifndef FIRST_COLUMN +#define FIRST_COLUMN 1 +#endif + +#ifndef PARSER_STACK_OVERFLOW +#define PARSER_STACK_OVERFLOW {fprintf(stderr, \ + "\nParser stack overflow, line %d, column %d\n",\ + (PCB).line, (PCB).column);} +#endif + +#ifndef REDUCTION_TOKEN_ERROR +#define REDUCTION_TOKEN_ERROR {fprintf(stderr, \ + "\nReduction token error, line %d, column %d\n", \ + (PCB).line, (PCB).column);} +#endif + + +typedef enum + {ag_accept_key, ag_set_key, ag_jmp_key, ag_end_key, ag_no_match_key, + ag_cf_accept_key, ag_cf_set_key, ag_cf_end_key} key_words; + + +#ifndef AG_NEWLINE +#define AG_NEWLINE 10 +#endif + +#ifndef AG_RETURN +#define AG_RETURN 13 +#endif + +#ifndef AG_FORMFEED +#define AG_FORMFEED 12 +#endif + +#ifndef AG_TABCHAR +#define AG_TABCHAR 9 +#endif + +static void ag_track(void) { + int ag_k = 0; + while (ag_k < (PCB).rx) { + int ag_ch = (PCB).lab[ag_k++]; + switch (ag_ch) { + case AG_NEWLINE: + (PCB).column = 1, (PCB).line++; + case AG_RETURN: + case AG_FORMFEED: + break; + case AG_TABCHAR: + (PCB).column += (TAB_SPACING) - ((PCB).column - 1) % (TAB_SPACING); + break; + default: + (PCB).column++; + } + } + ag_k = 0; + while ((PCB).rx < (PCB).fx) (PCB).lab[ag_k++] = (PCB).lab[(PCB).rx++]; + (PCB).fx = ag_k; + (PCB).rx = 0; +} + + +static void ag_prot(void) { + int ag_k; + ag_k = 128 - ++(PCB).btsx; + if (ag_k <= (PCB).ssx) { + (PCB).exit_flag = AG_STACK_ERROR_CODE; + PARSER_STACK_OVERFLOW; + return; + } + (PCB).bts[(PCB).btsx] = (PCB).sn; + (PCB).bts[ag_k] = (PCB).ssx; + (PCB).vs[ag_k] = (PCB).vs[(PCB).ssx]; + (PCB).ss[ag_k] = (PCB).ss[(PCB).ssx]; +} + +static void ag_undo(void) { + if ((PCB).drt == -1) return; + while ((PCB).btsx) { + int ag_k = 128 - (PCB).btsx; + (PCB).sn = (PCB).bts[(PCB).btsx--]; + (PCB).ssx = (PCB).bts[ag_k]; + (PCB).vs[(PCB).ssx] = (PCB).vs[ag_k]; + (PCB).ss[(PCB).ssx] = (PCB).ss[ag_k]; + } + (PCB).token_number = (parseSumData_token_type) (PCB).drt; + (PCB).ssx = (PCB).dssx; + (PCB).sn = (PCB).dsn; + (PCB).drt = -1; +} + + +static const unsigned char ag_tstt[] = { +10,0,1,2, +22,21,20,6,0,11,12,13,14, +6,0,3, +15,0, +22,21,20,0,11,14, +27,25,24,17,15,0,7, +9,0,4, +25,0,16,23, +27,25,24,17,15,8,0, +27,25,24,17,15,0,7, +5,0, +25,0, +17,0, +27,25,24,17,15,8,0, +25,0,18,23, +25,0, +24,8,0,19, +25,0,23, +8,0, +25,0, + 0 +}; + + +static unsigned const char ag_astt[83] = { + 1,7,0,1,2,2,2,5,7,1,1,3,1,1,7,1,1,7,2,2,2,5,3,1,2,2,2,2,2,7,1,1,7,1,2,7,1, + 1,10,10,10,10,10,2,7,2,2,2,2,2,7,1,3,7,10,4,1,7,10,10,10,10,10,2,7,2,7,1,1, + 10,4,1,4,7,1,2,7,1,2,7,10,4,11 +}; + + +static const unsigned char ag_pstt[] = { +1,0,0,2, +12,11,10,6,1,4,4,8,3, +5,2,6, +7,3, +12,11,10,7,5,3, +19,19,19,19,19,5,8, +9,6,10, +17,7,12,11, +20,20,20,20,20,2,8, +19,19,19,19,19,9,13, +1,10, +18,13, +14,12, +20,20,20,20,20,3,13, +17,14,16,15, +18,14, +17,15,16,18, +17,17,19, +9,18, +18,16, + 0 +}; + + +static const unsigned char ag_sbt[] = { + 0, 4, 13, 16, 18, 24, 31, 34, 38, 45, 52, 54, 56, 58, + 65, 69, 71, 75, 78, 80, 82 +}; + + +static const unsigned char ag_sbe[] = { + 1, 8, 14, 17, 21, 29, 32, 35, 44, 50, 53, 55, 57, 64, + 66, 70, 73, 76, 79, 81, 82 +}; + + +static const unsigned char ag_fl[] = { + 1,4,3,3,1,2,0,1,2,7,1,1,1,1,1,0,2,1,2,1,2 +}; + +static const unsigned char ag_ptt[] = { + 0, 1, 3, 4, 12, 12, 13, 13, 2, 11, 14, 14, 14, 16, 18, 19, 19, 23, + 23, 7, 7 +}; + + +static void ag_ra(void) +{ + switch(ag_rpx[(PCB).ag_ap]) { + case 1: ag_rp_1(); break; + case 2: ag_rp_2(); break; + case 3: ag_rp_3(V(0,(summable *)), V(2,(unsigned long *)), V(4,(unsigned long *)), V(5,(unsigned long *))); break; + case 4: V(0,(summable *)) = ag_rp_4(); break; + case 5: V(0,(summable *)) = ag_rp_5(); break; + case 6: V(0,(summable *)) = ag_rp_6(); break; + case 7: V(0,(unsigned long *)) = ag_rp_7(V(0,(unsigned long *))); break; + case 8: V(0,(unsigned long *)) = ag_rp_8(V(0,(unsigned long *))); break; + case 9: V(0,(unsigned long *)) = ag_rp_9(); break; + case 10: V(0,(unsigned long *)) = ag_rp_10(V(1,(unsigned long *))); break; + case 11: V(0,(unsigned long *)) = ag_rp_11(V(0,(int *))); break; + case 12: V(0,(unsigned long *)) = ag_rp_12(V(0,(unsigned long *)), V(1,(int *))); break; + case 13: ag_rp_13(V(0,(int *))); break; + case 14: ag_rp_14(V(1,(int *))); break; + } +} + +#define TOKEN_NAMES parseSumData_token_names +const char *const parseSumData_token_names[28] = { + "inserted data", + "inserted data", + "checksum data", + "build date", + "build os", + "eof", + "\"Build date:\"", + "text", + "'\\n'", + "\"Build OS:\"", + "\"Checksum data:\\n\"", + "sum entry", + "", + "", + "summable", + "'='", + "length", + "','", + "sum", + "offset", + "\"ag1\"", + "\"ag\"", + "\"agcl\"", + "integer", + "'@'", + "digit", + "ascii", + "", + +}; + +#ifndef MISSING_FORMAT +#define MISSING_FORMAT "Missing %s" +#endif +#ifndef UNEXPECTED_FORMAT +#define UNEXPECTED_FORMAT "Unexpected %s" +#endif +#ifndef UNNAMED_TOKEN +#define UNNAMED_TOKEN "input" +#endif + + +static void ag_diagnose(void) { + int ag_snd = (PCB).sn; + int ag_k = ag_sbt[ag_snd]; + + if (*TOKEN_NAMES[ag_tstt[ag_k]] && ag_astt[ag_k + 1] == ag_action_8) { + sprintf((PCB).ag_msg, MISSING_FORMAT, TOKEN_NAMES[ag_tstt[ag_k]]); + } + else if (ag_astt[ag_sbe[(PCB).sn]] == ag_action_8 + && (ag_k = (int) ag_sbe[(PCB).sn] + 1) == (int) ag_sbt[(PCB).sn+1] - 1 + && *TOKEN_NAMES[ag_tstt[ag_k]]) { + sprintf((PCB).ag_msg, MISSING_FORMAT, TOKEN_NAMES[ag_tstt[ag_k]]); + } + else if ((PCB).token_number && *TOKEN_NAMES[(PCB).token_number]) { + sprintf((PCB).ag_msg, UNEXPECTED_FORMAT, TOKEN_NAMES[(PCB).token_number]); + } + else if (isprint((*(PCB).lab)) && (*(PCB).lab) != '\\') { + char buf[20]; + sprintf(buf, "\'%c\'", (char) (*(PCB).lab)); + sprintf((PCB).ag_msg, UNEXPECTED_FORMAT, buf); + } + else sprintf((PCB).ag_msg, UNEXPECTED_FORMAT, UNNAMED_TOKEN); + (PCB).error_message = (PCB).ag_msg; + + +} +static int ag_action_1_r_proc(void); +static int ag_action_2_r_proc(void); +static int ag_action_3_r_proc(void); +static int ag_action_4_r_proc(void); +static int ag_action_1_s_proc(void); +static int ag_action_3_s_proc(void); +static int ag_action_1_proc(void); +static int ag_action_2_proc(void); +static int ag_action_3_proc(void); +static int ag_action_4_proc(void); +static int ag_action_5_proc(void); +static int ag_action_6_proc(void); +static int ag_action_7_proc(void); +static int ag_action_8_proc(void); +static int ag_action_9_proc(void); +static int ag_action_10_proc(void); +static int ag_action_11_proc(void); +static int ag_action_8_proc(void); + + +static int (*const ag_r_procs_scan[])(void) = { + ag_action_1_r_proc, + ag_action_2_r_proc, + ag_action_3_r_proc, + ag_action_4_r_proc +}; + +static int (*const ag_s_procs_scan[])(void) = { + ag_action_1_s_proc, + ag_action_2_r_proc, + ag_action_3_s_proc, + ag_action_4_r_proc +}; + +static int (*const ag_gt_procs_scan[])(void) = { + ag_action_1_proc, + ag_action_2_proc, + ag_action_3_proc, + ag_action_4_proc, + ag_action_5_proc, + ag_action_6_proc, + ag_action_7_proc, + ag_action_8_proc, + ag_action_9_proc, + ag_action_10_proc, + ag_action_11_proc, + ag_action_8_proc +}; + + +static int ag_action_10_proc(void) { + (PCB).btsx = 0, (PCB).drt = -1; + ag_track(); + return 0; +} + +static int ag_action_11_proc(void) { + (PCB).btsx = 0, (PCB).drt = -1; + (*(int *) &(PCB).vs[(PCB).ssx]) = *(PCB).lab; + (PCB).ssx--; + ag_ra(); + (PCB).ssx++; + ag_track(); + return 0; +} + +static int ag_action_3_r_proc(void) { + int ag_sd = ag_fl[(PCB).ag_ap] - 1; + if (ag_sd) (PCB).sn = (PCB).ss[(PCB).ssx -= ag_sd]; + (PCB).btsx = 0, (PCB).drt = -1; + (PCB).reduction_token = (parseSumData_token_type) ag_ptt[(PCB).ag_ap]; + ag_ra(); + return (PCB).exit_flag == AG_RUNNING_CODE; +} + +static int ag_action_3_s_proc(void) { + int ag_sd = ag_fl[(PCB).ag_ap] - 1; + if (ag_sd) (PCB).sn = (PCB).ss[(PCB).ssx -= ag_sd]; + (PCB).btsx = 0, (PCB).drt = -1; + (PCB).reduction_token = (parseSumData_token_type) ag_ptt[(PCB).ag_ap]; + ag_ra(); + return (PCB).exit_flag == AG_RUNNING_CODE; +} + +static int ag_action_4_r_proc(void) { + int ag_sd = ag_fl[(PCB).ag_ap] - 1; + if (ag_sd) (PCB).sn = (PCB).ss[(PCB).ssx -= ag_sd]; + (PCB).reduction_token = (parseSumData_token_type) ag_ptt[(PCB).ag_ap]; + return 1; +} + +static int ag_action_2_proc(void) { + (PCB).btsx = 0, (PCB).drt = -1; + if ((PCB).ssx >= 128) { + (PCB).exit_flag = AG_STACK_ERROR_CODE; + PARSER_STACK_OVERFLOW; + } + (*(int *) &(PCB).vs[(PCB).ssx]) = *(PCB).lab; + (PCB).ss[(PCB).ssx] = (PCB).sn; + (PCB).ssx++; + (PCB).sn = (PCB).ag_ap; + ag_track(); + return 0; +} + +static int ag_action_9_proc(void) { + if ((PCB).drt == -1) { + (PCB).drt=(PCB).token_number; + (PCB).dssx=(PCB).ssx; + (PCB).dsn=(PCB).sn; + } + ag_prot(); + (PCB).ss[(PCB).ssx] = (PCB).sn; + (PCB).ssx++; + (PCB).sn = (PCB).ag_ap; + (PCB).rx = 0; + return (PCB).exit_flag == AG_RUNNING_CODE; +} + +static int ag_action_2_r_proc(void) { + (PCB).ssx++; + (PCB).sn = (PCB).ag_ap; + return 0; +} + +static int ag_action_7_proc(void) { + --(PCB).ssx; + (PCB).exit_flag = AG_SUCCESS_CODE; + (PCB).rx = 0; + return 0; +} + +static int ag_action_1_proc(void) { + (PCB).exit_flag = AG_SUCCESS_CODE; + ag_track(); + return 0; +} + +static int ag_action_1_r_proc(void) { + (PCB).exit_flag = AG_SUCCESS_CODE; + return 0; +} + +static int ag_action_1_s_proc(void) { + (PCB).exit_flag = AG_SUCCESS_CODE; + return 0; +} + +static int ag_action_4_proc(void) { + int ag_sd = ag_fl[(PCB).ag_ap] - 1; + (PCB).reduction_token = (parseSumData_token_type) ag_ptt[(PCB).ag_ap]; + (PCB).btsx = 0, (PCB).drt = -1; + (*(int *) &(PCB).vs[(PCB).ssx]) = *(PCB).lab; + if (ag_sd) (PCB).sn = (PCB).ss[(PCB).ssx -= ag_sd]; + else (PCB).ss[(PCB).ssx] = (PCB).sn; + ag_track(); + while ((PCB).exit_flag == AG_RUNNING_CODE) { + unsigned ag_t1 = ag_sbe[(PCB).sn] + 1; + unsigned ag_t2 = ag_sbt[(PCB).sn+1] - 1; + do { + unsigned ag_tx = (ag_t1 + ag_t2)/2; + if (ag_tstt[ag_tx] < (unsigned char)(PCB).reduction_token) ag_t1 = ag_tx + 1; + else ag_t2 = ag_tx; + } while (ag_t1 < ag_t2); + (PCB).ag_ap = ag_pstt[ag_t1]; + if ((ag_s_procs_scan[ag_astt[ag_t1]])() == 0) break; + } + return 0; +} + +static int ag_action_3_proc(void) { + int ag_sd = ag_fl[(PCB).ag_ap] - 1; + (PCB).btsx = 0, (PCB).drt = -1; + (*(int *) &(PCB).vs[(PCB).ssx]) = *(PCB).lab; + if (ag_sd) (PCB).sn = (PCB).ss[(PCB).ssx -= ag_sd]; + else (PCB).ss[(PCB).ssx] = (PCB).sn; + ag_track(); + (PCB).reduction_token = (parseSumData_token_type) ag_ptt[(PCB).ag_ap]; + ag_ra(); + while ((PCB).exit_flag == AG_RUNNING_CODE) { + unsigned ag_t1 = ag_sbe[(PCB).sn] + 1; + unsigned ag_t2 = ag_sbt[(PCB).sn+1] - 1; + do { + unsigned ag_tx = (ag_t1 + ag_t2)/2; + if (ag_tstt[ag_tx] < (unsigned char)(PCB).reduction_token) ag_t1 = ag_tx + 1; + else ag_t2 = ag_tx; + } while (ag_t1 < ag_t2); + (PCB).ag_ap = ag_pstt[ag_t1]; + if ((ag_s_procs_scan[ag_astt[ag_t1]])() == 0) break; + } + return 0; +} + +static int ag_action_8_proc(void) { + ag_undo(); + (PCB).rx = 0; + (PCB).exit_flag = AG_SYNTAX_ERROR_CODE; + ag_diagnose(); + SYNTAX_ERROR; + {(PCB).rx = 1; ag_track();} + return (PCB).exit_flag == AG_RUNNING_CODE; +} + +static int ag_action_5_proc(void) { + int ag_sd = ag_fl[(PCB).ag_ap]; + (PCB).btsx = 0, (PCB).drt = -1; + if (ag_sd) (PCB).sn = (PCB).ss[(PCB).ssx -= ag_sd]; + else { + (PCB).ss[(PCB).ssx] = (PCB).sn; + } + (PCB).rx = 0; + (PCB).reduction_token = (parseSumData_token_type) ag_ptt[(PCB).ag_ap]; + ag_ra(); + while ((PCB).exit_flag == AG_RUNNING_CODE) { + unsigned ag_t1 = ag_sbe[(PCB).sn] + 1; + unsigned ag_t2 = ag_sbt[(PCB).sn+1] - 1; + do { + unsigned ag_tx = (ag_t1 + ag_t2)/2; + if (ag_tstt[ag_tx] < (unsigned char)(PCB).reduction_token) ag_t1 = ag_tx + 1; + else ag_t2 = ag_tx; + } while (ag_t1 < ag_t2); + (PCB).ag_ap = ag_pstt[ag_t1]; + if ((ag_r_procs_scan[ag_astt[ag_t1]])() == 0) break; + } + return (PCB).exit_flag == AG_RUNNING_CODE; +} + +static int ag_action_6_proc(void) { + int ag_sd = ag_fl[(PCB).ag_ap]; + (PCB).reduction_token = (parseSumData_token_type) ag_ptt[(PCB).ag_ap]; + if ((PCB).drt == -1) { + (PCB).drt=(PCB).token_number; + (PCB).dssx=(PCB).ssx; + (PCB).dsn=(PCB).sn; + } + if (ag_sd) { + (PCB).sn = (PCB).ss[(PCB).ssx -= ag_sd]; + } + else { + ag_prot(); + (PCB).vs[(PCB).ssx] = ag_null_value; + (PCB).ss[(PCB).ssx] = (PCB).sn; + } + (PCB).rx = 0; + while ((PCB).exit_flag == AG_RUNNING_CODE) { + unsigned ag_t1 = ag_sbe[(PCB).sn] + 1; + unsigned ag_t2 = ag_sbt[(PCB).sn+1] - 1; + do { + unsigned ag_tx = (ag_t1 + ag_t2)/2; + if (ag_tstt[ag_tx] < (unsigned char)(PCB).reduction_token) ag_t1 = ag_tx + 1; + else ag_t2 = ag_tx; + } while (ag_t1 < ag_t2); + (PCB).ag_ap = ag_pstt[ag_t1]; + if ((ag_r_procs_scan[ag_astt[ag_t1]])() == 0) break; + } + return (PCB).exit_flag == AG_RUNNING_CODE; +} + + +void init_parseSumData(void) { + unsigned ag_t1; + ag_t1 = 0; + (PCB).rx = (PCB).fx = 0; + (PCB).ss[0] = (PCB).sn = (PCB).ssx = 0; + (PCB).exit_flag = AG_RUNNING_CODE; + (PCB).key_sp = NULL; + (PCB).key_state = 0; + (PCB).line = FIRST_LINE; + (PCB).column = FIRST_COLUMN; + (PCB).btsx = 0, (PCB).drt = -1; + while (ag_tstt[ag_t1] == 0) { + (PCB).ag_ap = ag_pstt[ag_t1]; + (ag_gt_procs_scan[ag_astt[ag_t1]])(); + ag_t1 = ag_sbt[(PCB).sn]; + } +} + +void parseSumData(void) { + (PCB).lab[(PCB).fx++] = (PCB).input_code; + while ((PCB).exit_flag == AG_RUNNING_CODE) { + while (1) { + const unsigned char *ag_p; + int ag_ch; + if ((PCB).rx >= (PCB).fx) return; + ag_ch = CONVERT_CASE((PCB).lab[(PCB).rx++]); + if ((PCB).key_sp) { + if (ag_ch != *(PCB).key_sp++) { + (PCB).rx = (PCB).save_index; + (PCB).key_sp = NULL; + (PCB).key_state = 0; + break; + } else if (*(PCB).key_sp) continue; + if (ag_key_act[(PCB).key_state] == ag_cf_end_key) { + int ag_k1; + int ag_k2; + if ((PCB).rx >= (PCB).fx) { + (PCB).rx--; + (PCB).key_sp--; + return; + } + (PCB).key_sp = NULL; + ag_k1 = ag_key_parm[(PCB).key_state]; + ag_k2 = ag_key_pt[ag_k1]; + if (ag_key_itt[ag_k2 + CONVERT_CASE((PCB).lab[(PCB).rx])]) + (PCB).rx = (PCB).save_index; + else { + (PCB).token_number = (parseSumData_token_type) ag_key_pt[ag_k1+1]; + (PCB).key_state = 0; + } + break; + } + else { + (PCB).token_number = (parseSumData_token_type) ag_key_parm[(PCB).key_state]; + (PCB).key_state = 0; + (PCB).key_sp = NULL; + } + break; + } + if ((PCB).key_state == 0) { + (PCB).token_number = (parseSumData_token_type) AG_TCV(ag_ch); + if (((PCB).key_state = ag_key_index[(PCB).sn]) == 0) break; + (PCB).save_index = 1; + } + ag_p = &ag_key_ch[(PCB).key_state]; + if (ag_ch <= 255) while (*ag_p < ag_ch) ag_p++; + if (*ag_p == ag_ch) { + (PCB).key_state = (int)(ag_p - ag_key_ch); + switch (ag_key_act[(PCB).key_state]) { + case ag_cf_set_key: { + int ag_k1; + int ag_k2; + if ((PCB).rx >= (PCB).fx) { + (PCB).rx--; + return; + } + ag_k1 = ag_key_parm[(PCB).key_state]; + ag_k2 = ag_key_pt[ag_k1]; + (PCB).key_state = ag_key_jmp[(PCB).key_state]; + if (ag_key_itt[ag_k2 + CONVERT_CASE((PCB).lab[(PCB).rx])]) continue; + (PCB).save_index = (PCB).rx; + (PCB).token_number = (parseSumData_token_type) ag_key_pt[ag_k1+1]; + continue; + } + case ag_set_key: + (PCB).save_index = (PCB).rx; + (PCB).token_number = (parseSumData_token_type) ag_key_parm[(PCB).key_state]; + case ag_jmp_key: + (PCB).key_state = ag_key_jmp[(PCB).key_state]; + continue; + case ag_cf_end_key: + case ag_end_key: + (PCB).key_sp = ag_key_ends + ag_key_jmp[(PCB).key_state]; + continue; + case ag_accept_key: + (PCB).token_number = (parseSumData_token_type) ag_key_parm[(PCB).key_state]; + (PCB).key_state = 0; + break; + case ag_cf_accept_key: { + int ag_k1; + int ag_k2; + if ((PCB).rx >= (PCB).fx) { + (PCB).rx--; + return; + } + ag_k1 = ag_key_parm[(PCB).key_state]; + ag_k2 = ag_key_pt[ag_k1]; + if (ag_key_itt[ag_k2 + CONVERT_CASE((PCB).lab[(PCB).rx])]) + (PCB).rx = (PCB).save_index; + else { + (PCB).token_number = (parseSumData_token_type) ag_key_pt[ag_k1+1]; + (PCB).key_state = 0; + } + break; + } + } + break; + } else { + (PCB).rx = (PCB).save_index; + (PCB).key_state = 0; + break; + } + } + + { + unsigned ag_t1 = ag_sbt[(PCB).sn]; + unsigned ag_t2 = ag_sbe[(PCB).sn] - 1; + do { + unsigned ag_tx = (ag_t1 + ag_t2)/2; + if (ag_tstt[ag_tx] > (unsigned char)(PCB).token_number) + ag_t1 = ag_tx + 1; + else ag_t2 = ag_tx; + } while (ag_t1 < ag_t2); + if (ag_tstt[ag_t1] != (PCB).token_number) ag_t1 = ag_sbe[(PCB).sn]; + (PCB).ag_ap = ag_pstt[ag_t1]; + (ag_gt_procs_scan[ag_astt[ag_t1]])(); + } + } +} + +