#include "Main.h" #include #include #include #include #include "Defines.h" #include "Error.h" #include "HpFile.h" #include "Utilities.h" #ifndef atof double atof PROTO((const char *)); #endif /* own stuff already included */ #define N_MARKS 50 /* start size of the mark table */ #define N_SAMPLES 500 /* start size of the sample table */ char *theident; char *thestring; int theinteger; floatish thefloatish; int ch; /* last character read */ token thetok; /* last token */ int linenum; /* current line number */ int endfile; /* true at end of file */ static boolish gotjob = 0; /* "JOB" read */ static boolish gotdate = 0; /* "DATE" read */ static boolish gotvalueunit = 0; /* "VALUE_UNIT" read */ static boolish gotsampleunit = 0; /* "SAMPLE_UNIT" read */ static boolish insample = 0; /* true when in sample */ static floatish lastsample; /* the last sample time */ static void GetHpLine PROTO((FILE *)); /* forward */ static void GetHpTok PROTO((FILE *)); /* forward */ static struct entry *GetEntry PROTO((char *)); /* forward */ static void MakeIdentTable PROTO((void)); /* forward */ char *jobstring; char *datestring; char *sampleunitstring; char *valueunitstring; floatish *samplemap; /* sample intervals */ floatish *markmap; /* sample marks */ /* * An extremely simple parser. The input is organised into lines of * the form * * JOB s -- job identifier string * DATE s -- date string * SAMPLE_UNIT s -- sample unit eg "seconds" * VALUE_UNIT s -- value unit eg "bytes" * MARK i -- sample mark * BEGIN_SAMPLE i -- start of ith sample * identifier i -- there are i identifiers in this sample * END_SAMPLE i -- end of ith sample * */ void GetHpFile(FILE *infp) { nsamples = 0; nmarks = 0; nidents = 0; ch = ' '; endfile = 0; linenum = 1; lastsample = 0.0; GetHpTok(infp); while (endfile == 0) { GetHpLine(infp); } if (!gotjob) { Error("%s: JOB missing", hpfile); } if (!gotdate) { Error("%s: DATE missing", hpfile); } if (!gotvalueunit) { Error("%s: VALUE_UNIT missing", hpfile); } if (!gotsampleunit) { Error("%s: SAMPLE_UNIT missing", hpfile); } if (nsamples == 0) { Error("%s: contains no samples", hpfile); } MakeIdentTable(); fclose(hpfp); } /* * Read the next line from the input, check the syntax, and perform * the appropriate action. */ static void GetHpLine(FILE *infp) { static intish nmarkmax = 0, nsamplemax = 0; switch (thetok) { case JOB_TOK: GetHpTok(infp); if (thetok != STRING_TOK) { Error("%s, line %d: string must follow JOB", hpfile, linenum); } jobstring = thestring; gotjob = 1; GetHpTok(infp); break; case DATE_TOK: GetHpTok(infp); if (thetok != STRING_TOK) { Error("%s, line %d: string must follow DATE", hpfile, linenum); } datestring = thestring; gotdate = 1; GetHpTok(infp); break; case SAMPLE_UNIT_TOK: GetHpTok(infp); if (thetok != STRING_TOK) { Error("%s, line %d: string must follow SAMPLE_UNIT", hpfile, linenum); } sampleunitstring = thestring; gotsampleunit = 1; GetHpTok(infp); break; case VALUE_UNIT_TOK: GetHpTok(infp); if (thetok != STRING_TOK) { Error("%s, line %d: string must follow VALUE_UNIT", hpfile, linenum); } valueunitstring = thestring; gotvalueunit = 1; GetHpTok(infp); break; case MARK_TOK: GetHpTok(infp); if (thetok != FLOAT_TOK) { Error("%s, line %d, floating point number must follow MARK", hpfile, linenum); } if (insample) { Error("%s, line %d, MARK occurs within sample", hpfile, linenum); } if (nmarks >= nmarkmax) { if (!markmap) { nmarkmax = N_MARKS; markmap = (floatish*) xmalloc(nmarkmax * sizeof(floatish)); } else { nmarkmax *= 2; markmap = (floatish*) xrealloc(markmap, nmarkmax * sizeof(floatish)); } } markmap[ nmarks++ ] = thefloatish; GetHpTok(infp); break; case BEGIN_SAMPLE_TOK: insample = 1; GetHpTok(infp); if (thetok != FLOAT_TOK) { Error("%s, line %d, floating point number must follow BEGIN_SAMPLE", hpfile, linenum); } if (thefloatish < lastsample) { Error("%s, line %d, samples out of sequence", hpfile, linenum); } else { lastsample = thefloatish; } if (nsamples >= nsamplemax) { if (!samplemap) { nsamplemax = N_SAMPLES; samplemap = (floatish*) xmalloc(nsamplemax * sizeof(floatish)); } else { nsamplemax *= 2; samplemap = (floatish*) xrealloc(samplemap, nsamplemax * sizeof(floatish)); } } samplemap[ nsamples ] = thefloatish; GetHpTok(infp); break; case END_SAMPLE_TOK: insample = 0; GetHpTok(infp); if (thetok != FLOAT_TOK) { Error("%s, line %d: floating point number must follow END_SAMPLE", hpfile, linenum); } nsamples++; GetHpTok(infp); break; case IDENTIFIER_TOK: GetHpTok(infp); if (thetok != INTEGER_TOK) { Error("%s, line %d: integer must follow identifier", hpfile, linenum); } StoreSample(GetEntry(theident), nsamples, (floatish) theinteger); GetHpTok(infp); break; case EOF_TOK: endfile = 1; break; default: Error("%s, line %d: %s unexpected", hpfile, linenum, TokenToString(thetok)); break; } } char * TokenToString(token t) { switch (t) { case EOF_TOK: return "EOF"; case INTEGER_TOK: return "integer"; case FLOAT_TOK: return "floating point number"; case IDENTIFIER_TOK: return "identifier"; case STRING_TOK: return "string"; case BEGIN_SAMPLE_TOK: return "BEGIN_SAMPLE"; case END_SAMPLE_TOK: return "END_SAMPLE"; case JOB_TOK: return "JOB"; case DATE_TOK: return "DATE"; case SAMPLE_UNIT_TOK: return "SAMPLE_UNIT"; case VALUE_UNIT_TOK: return "VALUE_UNIT"; case MARK_TOK: return "MARK"; case X_RANGE_TOK: return "X_RANGE"; case Y_RANGE_TOK: return "Y_RANGE"; case ORDER_TOK: return "ORDER"; case SHADE_TOK: return "SHADE"; default: return "(strange token)"; } } /* * Read the next token from the input and assign its value * to the global variable "thetok". In the case of numbers, * the corresponding value is also assigned to "theinteger" * or "thefloatish" as appropriate; in the case of identifiers * it is assigned to "theident". */ static void GetHpTok(FILE *infp) { while (isspace(ch)) { /* skip whitespace */ if (ch == '\n') linenum++; ch = getc(infp); } if (ch == EOF) { thetok = EOF_TOK; return; } if (isdigit(ch)) { thetok = GetNumber(infp); return; } else if (ch == '\"') { GetString(infp); thetok = STRING_TOK; return; } else if (IsIdChar(ch)) { ASSERT(! (isdigit(ch))); /* ch can't be a digit here */ GetIdent(infp); if (!isupper((int)theident[0])) { thetok = IDENTIFIER_TOK; } else if (strcmp(theident, "BEGIN_SAMPLE") == 0) { thetok = BEGIN_SAMPLE_TOK; } else if (strcmp(theident, "END_SAMPLE") == 0) { thetok = END_SAMPLE_TOK; } else if (strcmp(theident, "JOB") == 0) { thetok = JOB_TOK; } else if (strcmp(theident, "DATE") == 0) { thetok = DATE_TOK; } else if (strcmp(theident, "SAMPLE_UNIT") == 0) { thetok = SAMPLE_UNIT_TOK; } else if (strcmp(theident, "VALUE_UNIT") == 0) { thetok = VALUE_UNIT_TOK; } else if (strcmp(theident, "MARK") == 0) { thetok = MARK_TOK; } else { thetok = IDENTIFIER_TOK; } return; } else { Error("%s, line %d: strange character (%c)", hpfile, linenum, ch); } } /* * Read a sequence of digits and convert the result to an integer * or floating point value (assigned to the "theinteger" or * "thefloatish"). */ static char numberstring[ NUMBER_LENGTH - 1 ]; token GetNumber(FILE *infp) { int i; int containsdot; ASSERT(isdigit(ch)); /* we must have a digit to start with */ containsdot = 0; for (i = 0; i < NUMBER_LENGTH && (isdigit(ch) || ch == '.'); i++) { numberstring[ i ] = ch; containsdot |= (ch == '.'); ch = getc(infp); } ASSERT(i < NUMBER_LENGTH); /* did not overflow */ numberstring[ i ] = '\0'; if (containsdot) { thefloatish = (floatish) atof(numberstring); return FLOAT_TOK; } else { theinteger = atoi(numberstring); return INTEGER_TOK; } } /* * Read a sequence of identifier characters and assign the result * to the string "theident". */ void GetIdent(FILE *infp) { unsigned int i; char idbuffer[5000]; for (i = 0; i < (sizeof idbuffer)-1 && IsIdChar(ch); i++) { idbuffer[ i ] = ch; ch = getc(infp); } idbuffer[ i ] = '\0'; if (theident) free(theident); theident = copystring(idbuffer); } /* * Read a sequence of characters that make up a string and * assign the result to "thestring". */ void GetString(FILE *infp) { unsigned int i; char *stringbuffer; size_t stringbuffersize; ASSERT(ch == '\"'); stringbuffersize = 5000; stringbuffer = xmalloc(stringbuffersize); ch = getc(infp); /* skip the '\"' that begins the string */ i = 0; while (ch != '\"') { if (ch == EOF) { Error("%s, line %d: EOF when expecting \"", hpfile, linenum, ch); } else if (i == stringbuffersize - 1) { stringbuffersize = 2 * stringbuffersize; stringbuffer = xrealloc(stringbuffer, stringbuffersize); } stringbuffer[ i++ ] = ch; ch = getc(infp); } stringbuffer[i] = '\0'; thestring = copystring(stringbuffer); ASSERT(ch == '\"'); ch = getc(infp); /* skip the '\"' that terminates the string */ } boolish IsIdChar(int ch) { return (!isspace(ch)); } /* * The information associated with each identifier is stored * in a linked list of chunks. The table below allows the list * of chunks to be retrieved given an identifier name. */ #define N_HASH 513 static struct entry* hashtable[ N_HASH ]; static intish Hash(char *s) { int r; for (r = 0; *s; s++) { r = r + r + r + *s; } if (r < 0) r = -r; return r % N_HASH; } /* * Get space for a new chunk. Initialise it, and return a pointer * to the new chunk. */ static struct chunk* MakeChunk(void) { struct chunk* ch; struct datapoint* d; ch = (struct chunk*) xmalloc( sizeof(struct chunk) ); d = (struct datapoint*) xmalloc (sizeof(struct datapoint) * N_CHUNK); ch->nd = 0; ch->d = d; ch->next = 0; return ch; } /* * Get space for a new entry. Initialise it, and return a pointer * to the new entry. */ struct entry * MakeEntry(char *name) { struct entry* e; e = (struct entry *) xmalloc(sizeof(struct entry)); e->chk = MakeChunk(); e->name = copystring(name); return e; } /* * Get the entry associated with "name", creating a new entry if * necessary. */ static struct entry * GetEntry(char *name) { intish h; struct entry* e; h = Hash(name); for (e = hashtable[ h ]; e; e = e->next) { if (strcmp(e->name, name) == 0) { break; } } if (e) { return (e); } else { nidents++; e = MakeEntry(name); e->next = hashtable[ h ]; hashtable[ h ] = e; return (e); } } /* * Store information from a sample. */ void StoreSample(struct entry *en, intish bucket, floatish value) { struct chunk* chk; for (chk = en->chk; chk->next != 0; chk = chk->next) ; if (chk->nd < N_CHUNK) { chk->d[ chk->nd ].bucket = bucket; chk->d[ chk->nd ].value = value; chk->nd += 1; } else { struct chunk* t; t = chk->next = MakeChunk(); t->d[ 0 ].bucket = bucket; t->d[ 0 ].value = value; t->nd += 1; } } struct entry** identtable; /* * The hash table is useful while reading the input, but it * becomes a liability thereafter. The code below converts * it to a more easily processed table. */ static void MakeIdentTable(void) { intish i; intish j; struct entry* e; nidents = 0; for (i = 0; i < N_HASH; i++) { for (e = hashtable[ i ]; e; e = e->next) { nidents++; } } identtable = (struct entry**) xmalloc(nidents * sizeof(struct entry*)); j = 0; for (i = 0; i < N_HASH; i++) { for (e = hashtable[ i ]; e; e = e->next, j++) { identtable[ j ] = e; } } }