doc: document Polyhedron_Reduced_Basis and Polyhedron_Sample

[barvinok.git] / omega / parser.l

%{
#include <stdio.h>
#include <string.h>
#include <ginac/ginac.h>
#include <omega/AST.h>
#include <basic/Dynamic_Array.h>
#include <code_gen/mmap-codegen.h>
#include "polyfunc.h"
#include "y.tab.hh"
#include <omega/calc_debug.h>
#ifdef WIN32
#include <io.h>
#define isatty _isatty
#include <malloc.h>
#define alloca _alloca
#endif

extern "C" int yywrap() {return 1;};


#if defined BRAIN_DAMAGED_FREE
void free(void *p);
void *realloc(void *p, size_t s);
#else
#define free(x)         free((char *)(x))
#endif

char scanBuf[1024];
void initializeScanBuffer() {
        scanBuf[0] = '\0';
        };
void flushScanBuffer() {
        fprintf(yyout,"# %s\n",scanBuf);
        if (omega_calc_debug) fprintf(DebugFile,"# %s\n",scanBuf);
        initializeScanBuffer();
        }
#define BUFFER strcat(scanBuf,yytext)
void yyerror(char *s) {
    fprintf(stderr,"%s\n",s);
    fprintf(stderr,"line %d, at end of \"%s\"\n",yylineno,scanBuf);
    }

#define MAX_INCLUDE_DEPTH 10
YY_BUFFER_STATE include_stack[MAX_INCLUDE_DEPTH];
int include_stack_ptr = 0;

void includeFile(char *s) {
                 if ( include_stack_ptr >= MAX_INCLUDE_DEPTH )
                     {
                     fprintf( stderr, "Includes nested too deeply" );
                     exit( 1 );
                     }

                 include_stack[include_stack_ptr++] =
                     YY_CURRENT_BUFFER;

                 FILE *f = fopen( yytext, "r" );

                 if ( ! f ) {
                        include_stack_ptr--;    
                     fprintf( stderr, "Can't open %s\n",s);
                        }
                else {
                        yyin = f;
                         yy_switch_to_buffer(
                             yy_create_buffer( yyin, YY_BUF_SIZE ) );
                        }

                }

%}

%option yylineno
%s LATEX INCLUDE

%% 


"<<"            {BUFFER; BEGIN(INCLUDE); }
<INCLUDE>[^>\n ]+">>"   { BUFFER; 
                          char *s = yytext;
                          while (*s != '>') s++;
                          *s = '\0';
                          includeFile(s);
                          BEGIN(INITIAL);

                        }
<INCLUDE>[ \n]  {       fprintf(stderr,"Error in include syntax\n");
                        fprintf(stderr,"Use <<fname>> to include the file named fname\n");
                        Exit(1);

                }
                        

<LATEX>"\\ "            { BUFFER; }
[ \t]+        { BUFFER; }
(#[^\n]*\n)     {strncat(scanBuf,yytext,yyleng-1);yylineno++;flushScanBuffer();}

<LATEX>"\$\$"           { BUFFER; BEGIN 0; }
"\$\$"                  { BUFFER; BEGIN LATEX; }
<LATEX>"\\t"            { BUFFER; }
<LATEX>"\\!"            { BUFFER; }
<LATEX>"\\\\"           { BUFFER; }

"\n"            { yylineno++; flushScanBuffer(); }
"{"             { BUFFER;  return OPEN_BRACE; }
<LATEX>"\\{"            { BUFFER;  return OPEN_BRACE; }
"}"             { BUFFER;  return CLOSE_BRACE; }
<LATEX>"\\}"            { BUFFER;  return CLOSE_BRACE; }
"approximate"           { BUFFER;  return APPROX; }
"union"         { BUFFER;  return UNION; }
<LATEX>"\\cup"          { BUFFER;  return UNION; }
"intersection"  { BUFFER;  return INTERSECTION; }
<LATEX>"\\cap"          { BUFFER;  return INTERSECTION; }
"symbolic"      { BUFFER;  return SYMBOLIC; }
"sym"           { BUFFER;  return SYMBOLIC; }
<LATEX>"\\mid"          { BUFFER;  return VERTICAL_BAR; }
<LATEX>"|"              { BUFFER;  return VERTICAL_BAR; }
<LATEX>"\\st"           { BUFFER;  return SUCH_THAT; }
"s.t."          { BUFFER;  return SUCH_THAT; }
"inverse"       { BUFFER;  return INVERSE; }
"complement"    { BUFFER;  return COMPLEMENT; }
<LATEX>"\\circ" { BUFFER;  return COMPOSE; }
"compose"       { BUFFER;  return COMPOSE; }
"difference"    { BUFFER;  return DIFFERENCE; }
"diffToRel"     { BUFFER;  return DIFFERENCE_TO_RELATION; }
"project away symbols"  { BUFFER;  return PROJECT_AWAY_SYMBOLS; }
"project_away_symbols"  { BUFFER;  return PROJECT_AWAY_SYMBOLS; }
"projectAwaySymbols"    { BUFFER;  return PROJECT_AWAY_SYMBOLS; }
"project on symbols"    { BUFFER;  return PROJECT_ON_SYMBOLS; }
"project_on_symbols"    { BUFFER;  return PROJECT_ON_SYMBOLS; }
"projectOnSymbols"      { BUFFER;  return PROJECT_ON_SYMBOLS; }
<LATEX>"\\join" { BUFFER;  return JOIN; }
"\."            { BUFFER;  return JOIN; }
"join"          { BUFFER;  return JOIN; }
"domain"        { BUFFER;  return OMEGA_DOMAIN; }
"time"          { BUFFER; return TIME; }
"timeclosure"   { BUFFER; return TIMECLOSURE; }
"range"         { BUFFER;  return RANGE; }
<LATEX>"\\forall"       { BUFFER;  return FORALL; }
"forall"        { BUFFER;  return FORALL; }
<LATEX>"\\exists"       { BUFFER;  return EXISTS; }
"exists"        { BUFFER;  return EXISTS; }
"PairwiseCheck"         { BUFFER;  return PAIRWISE_CHECK; }
"Venn"          { BUFFER;  return VENN; }
"ConvexCheck"           { BUFFER;  return CONVEX_CHECK; }
"ConvexCombination"             { BUFFER;  return CONVEX_COMBINATION; }
"PositiveCombination"           { BUFFER;  return POSITIVE_COMBINATION; }
"ConvexHull"            { BUFFER;  return CONVEX_HULL; }
"AffineHull"            { BUFFER;  return AFFINE_HULL; }
"ConicHull"             { BUFFER;  return CONIC_HULL; }
"LinearHull"            { BUFFER;  return LINEAR_HULL; }
"hull"          { BUFFER;  return HULL; }
"bmax"          { BUFFER;  return BMAX; }
"minimize"              { BUFFER;  return MINIMIZE; }
"maximize"              { BUFFER;  return MAXIMIZE; }
"minimize-range"                { BUFFER;  return MINIMIZE_RANGE; }
"maximize-range"                { BUFFER;  return MAXIMIZE_RANGE; }
"minimizerange"         { BUFFER;  return MINIMIZE_RANGE; }
"maximizerange"         { BUFFER;  return MAXIMIZE_RANGE; }
"minimize-domain"               { BUFFER;  return MINIMIZE_DOMAIN; }
"maximize-domain"               { BUFFER;  return MAXIMIZE_DOMAIN; }
"minimizedomain"                { BUFFER;  return MINIMIZE_DOMAIN; }
"maximizedomain"                { BUFFER;  return MAXIMIZE_DOMAIN; }
"gist"          { BUFFER;  return GIST; }
"given"         { BUFFER;  return GIVEN; }
"within"        { BUFFER;  return WITHIN; }
"subset"        { BUFFER;  return SUBSET; }
"codegen"       { BUFFER;  return CODEGEN; }
"tcodegen"      { BUFFER;  return TCODEGEN; }
"trans_is"      { BUFFER;  return TRANS_IS; }
"trans-is"      { BUFFER;  return TRANS_IS; }
"set_mmap"      { BUFFER;  return SET_MMAP; }
"set-mmap"      { BUFFER;  return SET_MMAP; }
"unroll_is"     { BUFFER;  return UNROLL_IS; }
"unroll-is"     { BUFFER;  return UNROLL_IS; }
"peel_is"       { BUFFER;  return PEEL_IS; }
"peel-is"       { BUFFER;  return PEEL_IS; }
"spmd"          { BUFFER;  return SPMD; }
"farkas"         { BUFFER;  return FARKAS; }
"decoupledfarkas"         { BUFFER;  return DECOUPLED_FARKAS; }
"decoupled-farkas"         { BUFFER;  return DECOUPLED_FARKAS; }
"decoupled_farkas"         { BUFFER;  return DECOUPLED_FARKAS; }
"upper_bound"         { BUFFER;  return MAKE_UPPER_BOUND; }
"lower_bound"         { BUFFER;  return MAKE_LOWER_BOUND; }
"supersetof"    { BUFFER;  return SUPERSETOF;}
"subsetof"      { BUFFER;  return SUBSETOF;}
"sym_example"   { BUFFER;  return SYM_SAMPLE;}
"example"       { BUFFER;  return SAMPLE;}
"carried_by"    { BUFFER;  return CARRIED_BY;}
"iterations"    { BUFFER;  return ITERATIONS; }
"reachable"     { BUFFER;  return REACHABLE_FROM; }
"reachable of"     { BUFFER;  return REACHABLE_OF; }
"restrict_domain"       { BUFFER;  return RESTRICT_DOMAIN; }
"restrictDomain"        { BUFFER;  return RESTRICT_DOMAIN; }
<LATEX>"\\"     { yyerror("Can't use \\ for restrict_domain in Tex mode"); }
"\\"            { BUFFER;  return RESTRICT_DOMAIN; }
"restrict_range"        { BUFFER;  return RESTRICT_RANGE; }
"restrictRange"         { BUFFER;  return RESTRICT_RANGE; }
"assertUnsatisfiable"   { BUFFER;  return ASSERT_UNSAT; }
"assert_unsatisfiable"  { BUFFER;  return ASSERT_UNSAT; }
"card"          { BUFFER;  return CARD; }
"ranking"       { BUFFER;  return RANKING; }
"count_lexsmaller"      { BUFFER;  return COUNT_LEXSMALLER; }
"vertices"      { BUFFER;  return VERTICES; }
"&"             { BUFFER;  return AND; }
"|"             { BUFFER;  return OR; }
"&&"            { BUFFER;  return AND; }
"||"            { BUFFER;  return OR; }
"and"           { BUFFER;  return AND; }
"or"            { BUFFER;  return OR; }
<LATEX>"\\land" { BUFFER;  return AND; }
<LATEX>"\\lor"  { BUFFER;  return OR; }
"!"             { BUFFER;  return NOT; }
"not"           { BUFFER;  return NOT; }
<LATEX>"\\neg"  { BUFFER;  return NOT; }
":="            { BUFFER;  return IS_ASSIGNED; }
"->"            { BUFFER;  return GOES_TO; }
"in"            { BUFFER;  return IN; }
<LATEX>"\\rightarrow"   { BUFFER;  return GOES_TO; }
"<="            { BUFFER;  yylval.REL_OPERATOR = leq;
                  return REL_OP;
                  }
<LATEX>"\\leq"          { BUFFER;  yylval.REL_OPERATOR = leq;
                  return REL_OP;
                  }
<LATEX>"\\le"           { BUFFER;  yylval.REL_OPERATOR = leq;
                  return REL_OP;
                  }
">="            { BUFFER;  yylval.REL_OPERATOR = geq;
                  return REL_OP;
                  }
<LATEX>"\\geq"          { BUFFER;  yylval.REL_OPERATOR = geq;
                  return REL_OP;
                  }
<LATEX>"\\ge"           { BUFFER;  yylval.REL_OPERATOR = geq;
                  return REL_OP;
                  }
"!="            { BUFFER;  yylval.REL_OPERATOR = neq;
                  return REL_OP;
                  }
<LATEX>"\\neq"          { BUFFER;  yylval.REL_OPERATOR = neq;
                  return REL_OP;
                  }
"<"             { BUFFER;  yylval.REL_OPERATOR = lt;
                  return REL_OP;
                  }
">"             { BUFFER;  yylval.REL_OPERATOR = gt;
                  return REL_OP;
                  }
"="             { BUFFER;  yylval.REL_OPERATOR = eq;
                  return REL_OP;
                  }
[A-Za-z][A-Za-z0-9_']*  { BUFFER;  if (yyleng > 19) yyerror("Identifier too long");
                          yylval.VAR_NAME = (char *) malloc(1+yyleng);
                          strcpy(yylval.VAR_NAME,yytext);
                          return VAR;
                          }
[A-Za-z][A-Za-z0-9_]*"(in)" { BUFFER; if (yyleng > 19) yyerror("Identifier too long");
                          yylval.VAR_NAME = (char *) malloc(1+yyleng);
                          strcpy(yylval.VAR_NAME,yytext);
                          yylval.VAR_NAME[yyleng-3] = 'i';  // lowercase
                          yylval.VAR_NAME[yyleng-2] = 'n';
                          return VAR;
                          }
[A-Za-z][A-Za-z0-9_]*"(set)" { BUFFER; if (yyleng > 19) yyerror("Identifier too long");
                          yylval.VAR_NAME = (char *) malloc(1+yyleng);
                          strcpy(yylval.VAR_NAME,yytext);
                          yylval.VAR_NAME[yyleng-4] = 'i';  // Change to "in"
                          yylval.VAR_NAME[yyleng-3] = 'n';  // Be afraid
                          yylval.VAR_NAME[yyleng-2] = ')';
                          yylval.VAR_NAME[yyleng-1] = '\0';
                          return VAR;
                          }
[A-Za-z][A-Za-z0-9_]*"(out)" { BUFFER; if (yyleng > 19) yyerror("Identifier too long");
                          yylval.VAR_NAME = (char *) malloc(1+yyleng);
                          strcpy(yylval.VAR_NAME,yytext);
                          yylval.VAR_NAME[yyleng-4] = 'o';  // lowercase
                          yylval.VAR_NAME[yyleng-3] = 'u';
                          yylval.VAR_NAME[yyleng-2] = 't';
                          return VAR;
                          }

<LATEX>"\\"[A-Za-z][A-Za-z0-9_]*        { BUFFER;  
                          if (yyleng > 19) yyerror("Identifier too long");
                          yylval.VAR_NAME = (char *) malloc(1+yyleng);
                          strcpy(yylval.VAR_NAME,yytext);
                          return VAR;
                          }
<LATEX>"\\"[A-Za-z][A-Za-z0-9_]*"(in)" { BUFFER; if (yyleng > 19) yyerror("Identifier too long");
                          yylval.VAR_NAME = (char *) malloc(1+yyleng);
                          strcpy(yylval.VAR_NAME,yytext);
                          yylval.VAR_NAME[yyleng-3] = 'i';  // lowercase
                          yylval.VAR_NAME[yyleng-2] = 'n';
                          return VAR;
                          }
<LATEX>"\\"[A-Za-z][A-Za-z0-9_]*"(set)" { BUFFER; if (yyleng > 19) yyerror("Identifier too long");
                          yylval.VAR_NAME = (char *) malloc(1+yyleng);
                          strcpy(yylval.VAR_NAME,yytext);
                          yylval.VAR_NAME[yyleng-4] = 'i';  // Change to "in"
                          yylval.VAR_NAME[yyleng-3] = 'n';  // Be afraid
                          yylval.VAR_NAME[yyleng-2] = ')';
                          yylval.VAR_NAME[yyleng-1] = '\0';
                          return VAR;
                          }
<LATEX>"\\"[A-Za-z][A-Za-z0-9_]*"(out)" { BUFFER; if (yyleng > 19) yyerror("Identifier too long");
                          yylval.VAR_NAME = (char *) malloc(1+yyleng);
                          strcpy(yylval.VAR_NAME,yytext);
                          yylval.VAR_NAME[yyleng-4] = 'o';  // lowercase
                          yylval.VAR_NAME[yyleng-3] = 'u';
                          yylval.VAR_NAME[yyleng-2] = 't';
                          return VAR;
                          }
[0-9]+          { BUFFER;  yylval.INT_VALUE = atoi(yytext);
                  return INT;
                        }
\"[^"]*\"       { BUFFER;
                  yytext[strlen(yytext)-1]='\0';
                  yylval.STRING_VALUE = new String(yytext+1);
                  return STRING;
                }
<<EOF>> {
                 if ( --include_stack_ptr < 0 )
                     {
                     yyterminate();
                     }
                else
                     {
                     yy_delete_buffer( YY_CURRENT_BUFFER );
                     yy_switch_to_buffer(
                          include_stack[include_stack_ptr] );
                     }
                 }

.               { BUFFER;  return yytext[0]; }