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ChipMaster's bwBASIC This also includes history going back to v2.10. *WARN* some binary files might have been corrupted by CRLF.
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bwBASIC/bwb_cmd.c

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  1. /***************************************************************

  2.   

  3.         bwb_cmd.c       Miscellaneous Commands

  4.                         for Bywater BASIC Interpreter

  5.   

  6.                         Copyright (c) 1993, Ted A. Campbell

  7.                         Bywater Software

  8.   

  9.                         email: tcamp@delphi.com

  10.   

  11.         Copyright and Permissions Information:

  12.   

  13.         All U.S. and international rights are claimed by the author,

  14.         Ted A. Campbell.

  15.   

  16.    This software is released under the terms of the GNU General

  17.    Public License (GPL), which is distributed with this software

  18.    in the file "COPYING".  The GPL specifies the terms under

  19.    which users may copy and use the software in this distribution.

  20.   

  21.    A separate license is available for commercial distribution,

  22.    for information on which you should contact the author.

  23.   

  24. ***************************************************************/

  25. 

  26. /*---------------------------------------------------------------*/

  27. /* NOTE: Modifications marked "JBV" were made by Jon B. Volkoff, */

  28. /* 11/1995 (eidetics@cerf.net).                                  */

  29. /*                                                               */

  30. /* Those additionally marked with "DD" were at the suggestion of */

  31. /* Dale DePriest (daled@cadence.com).                            */

  32. /*                                                               */

  33. /* Version 3.00 by Howard Wulf, AF5NE                            */

  34. /*                                                               */

  35. /* Version 3.10 by Howard Wulf, AF5NE                            */

  36. /*                                                               */

  37. /* Version 3.20 by Howard Wulf, AF5NE                            */

  38. /*                                                               */

  39. /*---------------------------------------------------------------*/

  40. 

  41. 

  42. 

  43. #include "bwbasic.h"

  44. 

  45. static void bwb_copy_file (char *Source, char *Target);

  46. static LineType *bwb_delete (LineType * l);

  47. static void bwb_display_file (char *Source);

  48. static LineType *bwb_load (LineType * Line, char *Prompt, int IsNew);

  49. static void bwb_new (void);

  50. static LineType *bwb_run_filename_or_linenumber (LineType * L);

  51. static LineType *bwb_save (LineType * Line, char *Prompt);

  52. static LineType *bwb_system (LineType * l);

  53. static LineType *bwb_xlist (LineType * l, FILE * file);

  54. static LineType *bwx_run (LineType * Line, char *ProgramName);

  55. static void CommandOptionVersion (int n, char *OutputLine);

  56. static void CommandUniqueID (int i, char *UniqueID);

  57. static void CommandVector (int i, char *Vector);

  58. static VariableType *find_variable_by_type (char *name, int dimensions,

  59.                                             char VariableTypeCode);

  60. static void FixUp (char *Name);

  61. static LineType *H14_RENAME (LineType * l);

  62. static int line_read_matrix_redim (LineType * l, VariableType * v);

  63. static void ProcessEscapeChars (const char *Input, char *Output);

  64. static int xl_line (FILE * file, LineType * l);

  65. 

  66. 

  67. /* 

  68.    fprintf( file, "------------------------------------------------------------\n");

  69.                    123456789012345678901234567890123456789012345678901234567890

  70.    fprintf( file, "     SYNTAX: %s\n", IntrinsicCommandTable[n].Syntax);

  71.    sprintf( tbuf, "DESCRIPTION: %s\n", IntrinsicCommandTable[n].Description);

  72.    fprintf( file, "             " );

  73.    fprintf( file, "             [%c] %s\n", X, bwb_vertable[i].Name);

  74.                    1234567890123

  75. */

  76. #define LEFT_LENGTH  13

  77. #define RIGHT_LENGTH 47

  78. #define TOTAL_LENGTH ( LEFT_LENGTH + RIGHT_LENGTH )

  79. 

  80. /* 

  81. --------------------------------------------------------------------------------------------

  82.                                EDIT, RENUM, RENUMBER

  83. --------------------------------------------------------------------------------------------

  84. */

  85. 

  86. static LineType *

  87. bwx_run (LineType * Line, char *ProgramName)

  88. {

  89.   size_t n;

  90.   char *tbuf;

  91.    

  92.   assert (Line != NULL);

  93.   assert( My != NULL );

  94. 

  95.   if (is_empty_string (ProgramName))

  96.   {

  97.     WARN_BAD_FILE_NAME;

  98.     return (Line);

  99.   }

  100.   if (is_empty_string (My->ProgramFilename))

  101.   {

  102.     WARN_BAD_FILE_NAME;

  103.     return (Line);

  104.   }

  105.   n = bwb_strlen (ProgramName) + 1 + bwb_strlen (My->ProgramFilename);

  106.   if ((tbuf = (char *) calloc (n + 1 /* NulChar */ , sizeof (char))) == NULL)

  107.   {

  108.     WARN_OUT_OF_MEMORY;

  109.     return (Line);

  110.   }

  111.   bwb_strcpy (tbuf, ProgramName);

  112.   bwb_strcat (tbuf, " ");

  113.   bwb_strcat (tbuf, My->ProgramFilename);

  114.   system (tbuf);

  115.   free (tbuf);

  116.   tbuf = NULL;

  117. 

  118.   /* open edited file for read */

  119.   bwb_NEW (Line);                /* Relocated by JBV (bug found by DD) */

  120.   if (bwb_fload (NULL) == FALSE)

  121.   {

  122.     WARN_BAD_FILE_NAME;

  123.     return (Line);

  124.   }

  125.   return (Line);

  126. }

  127. 

  128. 

  129. 

  130. /***************************************************************

  131.   

  132.       FUNCTION:       bwb_edit()

  133.   

  134.    DESCRIPTION:    This function implements the BASIC EDIT

  135.          program by shelling out to a default editor

  136.          specified by the variable BWB.EDITOR$.

  137.   

  138.    SYNTAX:     EDIT

  139.   

  140. ***************************************************************/

  141. 

  142. LineType *

  143. bwb_EDIT (LineType * Line)

  144. {

  145.   /* 

  146.      SYNTAX:     EDIT

  147.    */

  148.    

  149.   assert (Line != NULL);

  150.   assert( My != NULL );

  151. 

  152.   return bwx_run (Line, My->OptionEditString);

  153. }

  154. 

  155. /***************************************************************

  156.   

  157.         FUNCTION:       bwb_renum()

  158.   

  159.    DESCRIPTION:    This function implements the BASIC RENUM

  160.          command by shelling out to a default

  161.          renumbering program called "renum".

  162.          Added by JBV 10/95

  163.   

  164.    SYNTAX:     RENUM

  165.   

  166. ***************************************************************/

  167. 

  168. LineType *

  169. bwb_RENUM (LineType * Line)

  170. {

  171.   /* 

  172.      SYNTAX:     RENUM

  173.    */

  174.    

  175.   assert (Line != NULL);

  176.   assert( My != NULL );

  177. 

  178.   return bwx_run (Line, My->OptionRenumString);

  179. }

  180. 

  181. LineType *

  182. bwb_RENUMBER (LineType * Line)

  183. {

  184.   /* 

  185.      SYNTAX:     RENUMBER

  186.    */

  187.    

  188.   assert (Line != NULL);

  189.   assert( My != NULL );

  190. 

  191.   return bwx_run (Line, My->OptionRenumString);

  192. }

  193. 

  194. /* 

  195. --------------------------------------------------------------------------------------------

  196.                                REM

  197. --------------------------------------------------------------------------------------------

  198. */

  199. 

  200. LineType *

  201. bwb_REM (LineType * L)

  202. {

  203.   /* 

  204.      SYNTAX:     REM comment

  205.    */

  206.   /*

  207.      This line holds BASIC comments.

  208.    */

  209.    

  210.   assert (L != NULL);

  211. 

  212.   line_skip_eol (L);

  213.   return L;

  214. }

  215. 

  216. /* 

  217. --------------------------------------------------------------------------------------------

  218.                                IMAGE

  219. --------------------------------------------------------------------------------------------

  220. */

  221. 

  222. LineType *

  223. bwb_IMAGE (LineType * L)

  224. {

  225.   /* 

  226.      SYNTAX:     IMAGE print-using-format

  227.    */

  228.    

  229.   assert (L != NULL);

  230. 

  231.   line_skip_eol (L);

  232.   return L;

  233. }

  234. 

  235. /* 

  236. --------------------------------------------------------------------------------------------

  237.                                LET

  238. --------------------------------------------------------------------------------------------

  239. */

  240. 

  241. 

  242. LineType *

  243. bwb_LET (LineType * L)

  244. {

  245.   /*

  246.      SYNTAX:     LET variable [,...] = expression

  247.    */

  248.   VariableType *v;

  249.   VariantType x;

  250.   VariantType *X;

  251.    

  252.   assert (L != NULL);

  253.   X = &x;

  254.   CLEAR_VARIANT (X);

  255.   /* read the list of variables */

  256.   do

  257.   {

  258.     if ((v = line_read_scalar (L)) == NULL)

  259.     {

  260.       WARN_VARIABLE_NOT_DECLARED;

  261.       goto EXIT;

  262.     }

  263.   }

  264.   while (line_skip_seperator (L));

  265. 

  266.   /* skip the equal sign */

  267.   if (line_skip_EqualChar (L))

  268.   {

  269.     /* OK */

  270.   }

  271.   else if (line_skip_word (L, "EQ"))

  272.   {

  273.     /* OK */

  274.   }

  275.   else if (line_skip_word (L, ".EQ."))

  276.   {

  277.     /* OK */

  278.   }

  279.   else

  280.   {

  281.     WARN_SYNTAX_ERROR;

  282.     goto EXIT;

  283.   }

  284. 

  285.   /* evaluate the expression */

  286.   if (line_read_expression (L, X))        /* bwb_LET */

  287.   {

  288.     /* save the value */

  289.     if (line_is_eol (L) == FALSE)

  290.     {

  291.       WARN_SYNTAX_ERROR;

  292.       goto EXIT;

  293.     }

  294.     L->position = L->Startpos;

  295. 

  296.     /* for each variable, assign the value */

  297.     do

  298.     {

  299.       /* read a variable */

  300.       if ((v = line_read_scalar (L)) == NULL)

  301.       {

  302.         WARN_VARIABLE_NOT_DECLARED;

  303.         goto EXIT;

  304.       }

  305.       assert (v != NULL);

  306.       assert (X != NULL);

  307.       if (var_set (v, X) == FALSE)

  308.       {

  309.         WARN_TYPE_MISMATCH;

  310.         goto EXIT;

  311.       }

  312.     }

  313.     while (line_skip_seperator (L));

  314. 

  315.     /* we are now at the equals sign */

  316.     line_skip_eol (L);

  317.   }

  318.   else

  319.   {

  320.     WARN_SYNTAX_ERROR;

  321.   }

  322. EXIT:

  323.   RELEASE_VARIANT (X);

  324.   return L;

  325. }

  326. 

  327. 

  328. LineType *

  329. bwb_CONST (LineType * L)

  330. {

  331.   /*

  332.      SYNTAX:     CONST variable [,...] = expression

  333.    */

  334.   VariableType *v;

  335.   VariantType x;

  336.   VariantType *X;

  337.    

  338.   assert (L != NULL);

  339. 

  340.   X = &x;

  341.   CLEAR_VARIANT (X);

  342.   /* read the list of variables */

  343.   do

  344.   {

  345.     if ((v = line_read_scalar (L)) == NULL)

  346.     {

  347.       WARN_VARIABLE_NOT_DECLARED;

  348.       goto EXIT;

  349.     }

  350.   }

  351.   while (line_skip_seperator (L));

  352.   /* we are now at the equals sign */

  353. 

  354.   /* skip the equal sign */

  355.   if (line_skip_EqualChar (L))

  356.   {

  357.     /* OK */

  358.   }

  359.   else if (line_skip_word (L, "EQ"))

  360.   {

  361.     /* OK */

  362.   }

  363.   else if (line_skip_word (L, ".EQ."))

  364.   {

  365.     /* OK */

  366.   }

  367.   else

  368.   {

  369.     WARN_SYNTAX_ERROR;

  370.     goto EXIT;

  371.   }

  372. 

  373.   /* evaluate the expression */

  374.   if (line_read_expression (L, X))        /* bwb_LET */

  375.   {

  376.     /* save the value */

  377.     if (line_is_eol (L) == FALSE)

  378.     {

  379.       WARN_SYNTAX_ERROR;

  380.       goto EXIT;

  381.     }

  382. 

  383.     /* for each variable, assign the value */

  384.     L->position = L->Startpos;

  385.     do

  386.     {

  387.       /* read a variable */

  388.       if ((v = line_read_scalar (L)) == NULL)

  389.       {

  390.         WARN_VARIABLE_NOT_DECLARED;

  391.         goto EXIT;

  392.       }

  393.       assert (v != NULL);

  394.       assert (X != NULL);

  395.       if (var_set (v, X) == FALSE)

  396.       {

  397.         WARN_TYPE_MISMATCH;

  398.         goto EXIT;

  399.       }

  400.     }

  401.     while (line_skip_seperator (L));

  402.     /* we are now at the equals sign */

  403. 

  404.     /* for each variable, mark as constant */

  405.     L->position = L->Startpos;

  406.     do

  407.     {

  408.       /* read a variable */

  409.       if ((v = line_read_scalar (L)) == NULL)

  410.       {

  411.         WARN_VARIABLE_NOT_DECLARED;

  412.         goto EXIT;

  413.       }

  414.       assert (v != NULL);

  415.       v->VariableFlags |= VARIABLE_CONSTANT;

  416.     }

  417.     while (line_skip_seperator (L));

  418.     /* we are now at the equals sign */

  419. 

  420.     line_skip_eol (L);

  421.   }

  422.   else

  423.   {

  424.     WARN_SYNTAX_ERROR;

  425.   }

  426. EXIT:

  427.   RELEASE_VARIANT (X);

  428.   return L;

  429. }

  430. 

  431. LineType *

  432. bwb_DEC (LineType * L)

  433. {

  434.   /*

  435.      SYNTAX:     DEC variable [,...]

  436.    */

  437.   VariableType *v;

  438.   VariantType x;

  439.   VariantType *X;

  440.    

  441.   assert (L != NULL);

  442. 

  443.   X = &x;

  444.   CLEAR_VARIANT (X);

  445.   /* read the list of variables */

  446.   do

  447.   {

  448.     if ((v = line_read_scalar (L)) == NULL)

  449.     {

  450.       WARN_VARIABLE_NOT_DECLARED;

  451.       goto EXIT;

  452.     }

  453.     if (v->VariableTypeCode == StringTypeCode)

  454.     {

  455.       WARN_TYPE_MISMATCH;

  456.       goto EXIT;

  457.     }

  458.   }

  459.   while (line_skip_seperator (L));

  460.   /* we are now at the end of the line */

  461. 

  462.   if (line_is_eol (L) == FALSE)

  463.   {

  464.     WARN_SYNTAX_ERROR;

  465.     goto EXIT;

  466.   }

  467.   L->position = L->Startpos;

  468. 

  469.   /* for each variable, assign the value */

  470.   do

  471.   {

  472.     /* read a variable */

  473.     if ((v = line_read_scalar (L)) == NULL)

  474.     {

  475.       WARN_VARIABLE_NOT_DECLARED;

  476.       goto EXIT;

  477.     }

  478.     assert (v != NULL);

  479.     assert (X != NULL);

  480.     if (var_get (v, X) == FALSE)

  481.     {

  482.       WARN_VARIABLE_NOT_DECLARED;

  483.       goto EXIT;

  484.     }

  485.     X->Number--;

  486.     if (var_set (v, X) == FALSE)

  487.     {

  488.       WARN_VARIABLE_NOT_DECLARED;

  489.       goto EXIT;

  490.     }

  491.   }

  492.   while (line_skip_seperator (L));

  493.   /* we are now at the end of the line */

  494. EXIT:

  495.   RELEASE_VARIANT (X);

  496.   return L;

  497. }

  498. 

  499. LineType *

  500. bwb_INC (LineType * L)

  501. {

  502.   /*

  503.      SYNTAX:     INC variable [,...]

  504.    */

  505.   VariableType *v;

  506.   VariantType x;

  507.   VariantType *X;

  508.    

  509.   assert (L != NULL);

  510. 

  511.   X = &x;

  512.   CLEAR_VARIANT (X);

  513.   /* read the list of variables */

  514.   do

  515.   {

  516.     if ((v = line_read_scalar (L)) == NULL)

  517.     {

  518.       WARN_VARIABLE_NOT_DECLARED;

  519.       goto EXIT;

  520.     }

  521.     if (v->VariableTypeCode == StringTypeCode)

  522.     {

  523.       WARN_TYPE_MISMATCH;

  524.       goto EXIT;

  525.     }

  526.   }

  527.   while (line_skip_seperator (L));

  528.   /* we are now at the end of the line */

  529. 

  530.   if (line_is_eol (L) == FALSE)

  531.   {

  532.     WARN_SYNTAX_ERROR;

  533.     goto EXIT;

  534.   }

  535.   L->position = L->Startpos;

  536. 

  537.   /* for each variable, assign the value */

  538.   do

  539.   {

  540.     /* read a variable */

  541.     if ((v = line_read_scalar (L)) == NULL)

  542.     {

  543.       WARN_VARIABLE_NOT_DECLARED;

  544.       goto EXIT;

  545.     }

  546.     assert (v != NULL);

  547.     assert (X != NULL);

  548.     if (var_get (v, X) == FALSE)

  549.     {

  550.       WARN_VARIABLE_NOT_DECLARED;

  551.       goto EXIT;

  552.     }

  553.     X->Number++;

  554.     if (var_set (v, X) == FALSE)

  555.     {

  556.       WARN_VARIABLE_NOT_DECLARED;

  557.       goto EXIT;

  558.     }

  559.   }

  560.   while (line_skip_seperator (L));

  561.   /* we are now at the end of the line */

  562. EXIT:

  563.   RELEASE_VARIANT (X);

  564.   return L;

  565. }

  566. 

  567. 

  568. 

  569. /* 

  570. --------------------------------------------------------------------------------------------

  571.                                GO

  572. --------------------------------------------------------------------------------------------

  573. */

  574. 

  575. LineType *

  576. bwb_GO (LineType * L)

  577. {

  578.    

  579.   assert (L != NULL);

  580.   WARN_SYNTAX_ERROR;

  581.   return L;

  582. }

  583. 

  584. LineType *

  585. bwb_THEN (LineType * L)

  586. {

  587.    

  588.   assert (L != NULL);

  589.   WARN_SYNTAX_ERROR;

  590.   return L;

  591. }

  592. 

  593. LineType *

  594. bwb_TO (LineType * L)

  595. {

  596.    

  597.   assert (L != NULL);

  598.   WARN_SYNTAX_ERROR;

  599.   return L;

  600. }

  601. 

  602. LineType *

  603. bwb_STEP (LineType * L)

  604. {

  605.    

  606.   assert (L != NULL);

  607.   WARN_SYNTAX_ERROR;

  608.   return L;

  609. }

  610. 

  611. LineType *

  612. bwb_OF (LineType * L)

  613. {

  614.    

  615.   assert (L != NULL);

  616.   WARN_SYNTAX_ERROR;

  617.   return L;

  618. }

  619. 

  620. LineType *

  621. bwb_AS (LineType * L)

  622. {

  623.    

  624.   assert (L != NULL);

  625.   WARN_SYNTAX_ERROR;

  626.   return L;

  627. }

  628. 

  629. 

  630. /* 

  631. --------------------------------------------------------------------------------------------

  632.                                AUTO

  633. --------------------------------------------------------------------------------------------

  634. */

  635. 

  636. 

  637. LineType *

  638. bwb_BUILD (LineType * L)

  639. {

  640.   /* 

  641.      SYNTAX:     BUILD 

  642.      SYNTAX:     BUILD start

  643.      SYNTAX:     BUILD start, increment 

  644.    */

  645.    

  646.   assert (L != NULL);

  647.   return bwb_AUTO (L);

  648. }

  649. 

  650. LineType *

  651. bwb_AUTO (LineType * L)

  652. {

  653.   /*

  654.      SYNTAX:     AUTO

  655.      SYNTAX:     AUTO start

  656.      SYNTAX:     AUTO start , increment

  657.    */

  658.    

  659.   assert (L != NULL);

  660.   assert( My != NULL );

  661. 

  662.   My->AutomaticLineNumber = 0;

  663.   My->AutomaticLineIncrement = 0;

  664. 

  665.   if (line_is_eol (L))

  666.   {

  667.     /* AUTO                   */

  668.     My->AutomaticLineNumber = 10;

  669.     My->AutomaticLineIncrement = 10;

  670.     return L;

  671.   }

  672.   if (line_read_line_number (L, &My->AutomaticLineNumber))

  673.   {

  674.     /* AUTO ### ... */

  675.     if (My->AutomaticLineNumber < MINLIN || My->AutomaticLineNumber > MAXLIN)

  676.     {

  677.       WARN_UNDEFINED_LINE;

  678.       return L;

  679.     }

  680.     if (line_is_eol (L))

  681.     {

  682.       /* AUTO start             */

  683.       My->AutomaticLineIncrement = 10;

  684.       return L;

  685.     }

  686.     else if (line_skip_seperator (L))

  687.     {

  688.       /* AUTO ### ,  ... */

  689.       if (line_read_line_number (L, &My->AutomaticLineIncrement))

  690.       {

  691.         /* AUTO start , increment */

  692.         if (My->AutomaticLineIncrement < MINLIN

  693.             || My->AutomaticLineIncrement > MAXLIN)

  694.         {

  695.           WARN_UNDEFINED_LINE;

  696.           return L;

  697.         }

  698.         return L;

  699.       }

  700.     }

  701.   }

  702.   My->AutomaticLineNumber = 0;

  703.   My->AutomaticLineIncrement = 0;

  704.   WARN_SYNTAX_ERROR;

  705.   return L;

  706. }

  707. 

  708. /* 

  709. --------------------------------------------------------------------------------------------

  710.                                BREAK

  711. --------------------------------------------------------------------------------------------

  712. */

  713. 

  714. 

  715. LineType *

  716. bwb_BREAK (LineType * l)

  717. {

  718.   /*

  719.      SYNTAX:     BREAK

  720.      SYNTAX:     BREAK line [,...]

  721.      SYNTAX:     BREAK line - line

  722.    */

  723.    

  724.   assert (l != NULL);

  725.   assert( My != NULL );

  726.   assert( My->StartMarker != NULL );

  727.   assert( My->EndMarker != NULL );

  728. 

  729.   if (line_is_eol (l))

  730.   {

  731.     /* BREAK */

  732.     /* remove all line breaks */

  733.     LineType *x;

  734.     for (x = My->StartMarker->next; x != My->EndMarker; x = x->next)

  735.     {

  736.       x->LineFlags &= ~LINE_BREAK;

  737.     }

  738.     return (l);

  739.   }

  740.   else

  741.   {

  742.     do

  743.     {

  744.       int head;

  745.       int tail;

  746. 

  747.       if (line_read_line_sequence (l, &head, &tail))

  748.       {

  749.         /* BREAK 's' - 'e' */

  750.         LineType *x;

  751.         if (head < MINLIN || head > MAXLIN)

  752.         {

  753.           WARN_UNDEFINED_LINE;

  754.           return (l);

  755.         }

  756.         if (tail < MINLIN || tail > MAXLIN)

  757.         {

  758.           WARN_UNDEFINED_LINE;

  759.           return (l);

  760.         }

  761.         if (head > tail)

  762.         {

  763.           WARN_SYNTAX_ERROR;

  764.           return (l);

  765.         }

  766.         /* valid range */

  767.         /* now go through and list appropriate lines */

  768.         for (x = My->StartMarker->next; x != My->EndMarker; x = x->next)

  769.         {

  770.           if (head <= x->number && x->number <= tail)

  771.           {

  772.             if (x->LineFlags & LINE_NUMBERED)

  773.             {

  774.               x->LineFlags |= LINE_BREAK;

  775.             }

  776.           }

  777.         }

  778.       }

  779.       else

  780.       {

  781.         WARN_SYNTAX_ERROR;

  782.         return (l);

  783.       }

  784.     }

  785.     while (line_skip_seperator (l));

  786.   }

  787.   return (l);

  788. }

  789. 

  790. 

  791. /* 

  792. --------------------------------------------------------------------------------------------

  793.                                DSP

  794. --------------------------------------------------------------------------------------------

  795. */

  796. 

  797. LineType *

  798. bwb_DSP (LineType * l)

  799. {

  800.   /*

  801.      SYNTAX:     DSP

  802.      SYNTAX:     DSP variablename [,...]

  803.    */

  804.   VariableType *v;

  805.    

  806.   assert (l != NULL);

  807.   assert( My != NULL );

  808. 

  809. 

  810.   if (line_is_eol (l))

  811.   {

  812.     /* DSP */

  813.     /* remove all variable displays */

  814.     for (v = My->VariableHead; v != NULL; v = v->next)

  815.     {

  816.       v->VariableFlags &= ~VARIABLE_DISPLAY;        /* bwb_DSP() */

  817.     }

  818.     return (l);

  819.   }

  820.   /* DSP variablename [,...] */

  821.   do

  822.   {

  823.     char varname[NameLengthMax + 1];

  824. 

  825.     if (line_read_varname (l, varname))

  826.     {

  827.       /* mark the variable */

  828.       for (v = My->VariableHead; v != NULL; v = v->next)

  829.       {

  830.         if (bwb_stricmp (v->name, varname) == 0)

  831.         {

  832.           v->VariableFlags |= VARIABLE_DISPLAY;        /* bwb_DSP() */

  833.         }

  834.       }

  835.     }

  836.   }

  837.   while (line_skip_seperator (l));

  838.   return (l);

  839. }

  840. 

  841. 

  842. /* 

  843. --------------------------------------------------------------------------------------------

  844.                                GOTO

  845. --------------------------------------------------------------------------------------------

  846. */

  847. 

  848. LineType *

  849. bwb_GO_TO (LineType * l)

  850. {

  851.    

  852.   assert (l != NULL);

  853.   return bwb_GOTO (l);

  854. }

  855. 

  856. LineType *

  857. bwb_GOTO (LineType * l)

  858. {

  859.   /*

  860.      SYNTAX:     GOTO line                      ' standard GOTO

  861.      SYNTAX:     GOTO expression                ' calculated GOTO

  862.      SYNTAX:     GOTO expression OF line,...    ' indexed GOTO, same as ON expression GOTO line,...

  863.      SYNTAX:     GOTO line [,...] ON expression ' indexed GOTO, same as ON expression GOTO line,...

  864.    */

  865.   int Value;

  866.   int LineNumber;

  867.   LineType *x;

  868.    

  869.   assert (l != NULL);

  870.   assert( My != NULL );

  871.   assert( My->CurrentVersion != NULL );

  872. 

  873.   Value = 0;

  874.   LineNumber = 0;

  875.   if (l->LineFlags & (LINE_USER))

  876.   {

  877.     WARN_ILLEGAL_DIRECT;

  878.     return (l);

  879.   }

  880. 

  881.   if (line_is_eol (l))

  882.   {

  883.     WARN_SYNTAX_ERROR;

  884.     return (l);

  885.   }

  886.   if (line_read_integer_expression (l, &Value) == FALSE)

  887.   {

  888.     WARN_SYNTAX_ERROR;

  889.     return (l);

  890.   }

  891. 

  892.   if (line_is_eol (l))

  893.   {

  894.     /* GOTO linenumber */

  895.     /* 'Value' is the line number */

  896.     LineNumber = Value;

  897.   }

  898.   else if (line_skip_word (l, "OF"))

  899.   {

  900.     /* GOTO expression OF line, ... */

  901.     /* 'Value' is an index into a list of line numbers */

  902.     if (line_read_index_item (l, Value, &LineNumber))

  903.     {

  904.       /* found 'LineNumber' */

  905.     }

  906.     else if (My->CurrentVersion->OptionFlags & (OPTION_BUGS_ON) ) /* GOTO X OF ... */

  907.     {

  908.       /* silently fall-thru to the following line */

  909.       line_skip_eol (l);

  910.       return (l);

  911.     }

  912.     else

  913.     {

  914.       /* ERROR */

  915.       WARN_UNDEFINED_LINE;

  916.       return (l);

  917.     }

  918.   }

  919.   else if (My->CurrentVersion->OptionVersionValue & (S70 | I70 | I73))

  920.   {

  921.     /* GOTO line [,...] ON expression */

  922.     while (line_skip_seperator (l))

  923.     {

  924.       if (line_read_integer_expression (l, &Value) == FALSE)

  925.       {

  926.         WARN_SYNTAX_ERROR;

  927.         return (l);

  928.       }

  929.     }

  930.     if (line_skip_word (l, "ON") == FALSE)

  931.     {

  932.       WARN_SYNTAX_ERROR;

  933.       return (l);

  934.     }

  935.     if (line_read_integer_expression (l, &Value) == FALSE)

  936.     {

  937.       WARN_SYNTAX_ERROR;

  938.       return (l);

  939.     }

  940.     /* 'Value' is an index into a list of line numbers */

  941.     l->position = l->Startpos;

  942.     if (line_read_index_item (l, Value, &LineNumber))

  943.     {

  944.       /* found 'LineNumber' */

  945.     }

  946.     else

  947.     {

  948.       /* silently fall-thru to the following line */

  949.       line_skip_eol (l);

  950.       return (l);

  951.     }

  952.     line_skip_eol (l);

  953.   }

  954.   else

  955.   {

  956.     WARN_SYNTAX_ERROR;

  957.     return (l);

  958.   }

  959. 

  960.   if (LineNumber < MINLIN || LineNumber > MAXLIN)

  961.   {

  962.     WARN_UNDEFINED_LINE;

  963.     return (l);

  964.   }

  965.   /* valid range */

  966.   x = NULL;

  967. #if THE_PRICE_IS_RIGHT

  968.   if (l->OtherLine != NULL)

  969.   {

  970.     /* look in the cache */

  971.     if (l->OtherLine->number == LineNumber)

  972.     {

  973.       x = l->OtherLine;                /* found in cache */

  974.     }

  975.   }

  976. #endif /* THE_PRICE_IS_RIGHT */

  977.   if (x == NULL)

  978.   {

  979.     x = find_line_number (LineNumber);        /* not found in the cache */

  980.   }

  981.   if (x != NULL)

  982.   {

  983.     /* FOUND */

  984.     line_skip_eol (l);

  985.     x->position = 0;

  986. #if THE_PRICE_IS_RIGHT

  987.     l->OtherLine = x;                /* save in cache */

  988. #endif /* THE_PRICE_IS_RIGHT */

  989.     return x;

  990.   }

  991.   /* NOT FOUND */

  992.   WARN_UNDEFINED_LINE;

  993.   return (l);

  994. }

  995. 

  996. 

  997. /* 

  998. --------------------------------------------------------------------------------------------

  999.                                GOSUB

  1000. --------------------------------------------------------------------------------------------

  1001. */

  1002. 

  1003. LineType *

  1004. bwb_GO_SUB (LineType * l)

  1005. {

  1006.    

  1007.   assert (l != NULL);

  1008.   return bwb_GOSUB (l);

  1009. }

  1010. 

  1011. LineType *

  1012. bwb_GOSUB (LineType * l)

  1013. {

  1014.   /*

  1015.      SYNTAX:     GOSUB line                      ' standard GOSUB

  1016.      SYNTAX:     GOSUB expression                ' calculated GOSUB

  1017.      SYNTAX:     GOSUB expression OF line,...    ' indexed GOSUB, same as ON expression GOSUB line,...

  1018.      SYNTAX:     GOSUB line [,...] ON expression ' indexed GOSUB, same as ON expression GOSUB line,...

  1019.    */

  1020.   int Value;

  1021.   int LineNumber;

  1022.   LineType *x;

  1023.    

  1024.   assert (l != NULL);

  1025.   assert( My != NULL );

  1026.   assert( My->CurrentVersion != NULL );

  1027. 

  1028.   Value = 0;

  1029.   LineNumber = 0;

  1030.   x = NULL;

  1031.   if (l->LineFlags & (LINE_USER))

  1032.   {

  1033.     WARN_ILLEGAL_DIRECT;

  1034.     return (l);

  1035.   }

  1036. 

  1037.   if (line_is_eol (l))

  1038.   {

  1039.     WARN_SYNTAX_ERROR;

  1040.     return (l);

  1041.   }

  1042.   if (line_read_integer_expression (l, &Value) == FALSE)

  1043.   {

  1044.     WARN_SYNTAX_ERROR;

  1045.     return (l);

  1046.   }

  1047. 

  1048.   if (line_is_eol (l))

  1049.   {

  1050.     /* GOSUB linenumber */

  1051.     /* 'Value' is the line number */

  1052.     LineNumber = Value;

  1053.   }

  1054.   else if (line_skip_word (l, "OF"))

  1055.   {

  1056.     /* GOSUB linenumber [,...] OF expression */

  1057.     /* 'Value' is an index into a list of line numbers */

  1058.     if (line_read_index_item (l, Value, &LineNumber))

  1059.     {

  1060.       /* found 'LineNumber' */

  1061.     }

  1062.     else if (My->CurrentVersion->OptionFlags & (OPTION_BUGS_ON) ) /* GOSUB X OF ... */ 

  1063.     {

  1064.       /* silently fall-thru to the following line */

  1065.       line_skip_eol (l);

  1066.       return (l);

  1067.     }

  1068.     else

  1069.     {

  1070.       /* ERROR */

  1071.       WARN_UNDEFINED_LINE;

  1072.       return (l);

  1073.     }

  1074.   }

  1075.   else if (My->CurrentVersion->OptionVersionValue & (S70 | I70 | I73))

  1076.   {

  1077.     /* GOSUB line [,...] ON expression */

  1078.     while (line_skip_seperator (l))

  1079.     {

  1080.       if (line_read_integer_expression (l, &Value) == FALSE)

  1081.       {

  1082.         WARN_SYNTAX_ERROR;

  1083.         return (l);

  1084.       }

  1085.     }

  1086.     if (line_skip_word (l, "ON") == FALSE)

  1087.     {

  1088.       WARN_SYNTAX_ERROR;

  1089.       return (l);

  1090.     }

  1091.     if (line_read_integer_expression (l, &Value) == FALSE)

  1092.     {

  1093.       WARN_SYNTAX_ERROR;

  1094.       return (l);

  1095.     }

  1096.     /* 'Value' is an index into a list of line numbers */

  1097.     l->position = l->Startpos;

  1098.     if (line_read_index_item (l, Value, &LineNumber))

  1099.     {

  1100.       /* found 'LineNumber' */

  1101.     }

  1102.     else

  1103.     {

  1104.       /* silently fall-thru to the following line */

  1105.       line_skip_eol (l);

  1106.       return (l);

  1107.     }

  1108.     line_skip_eol (l);

  1109.   }

  1110.   else

  1111.   {

  1112.     WARN_SYNTAX_ERROR;

  1113.     return (l);

  1114.   }

  1115. 

  1116.   if (LineNumber < MINLIN || LineNumber > MAXLIN)

  1117.   {

  1118.     WARN_UNDEFINED_LINE;

  1119.     return (l);

  1120.   }

  1121.   /* valid range */

  1122.   x = NULL;

  1123. #if THE_PRICE_IS_RIGHT

  1124.   if (l->OtherLine != NULL)

  1125.   {

  1126.     /* look in the cache */

  1127.     if (l->OtherLine->number == LineNumber)

  1128.     {

  1129.       x = l->OtherLine;                /* found in cache */

  1130.     }

  1131.   }

  1132. #endif /* THE_PRICE_IS_RIGHT */

  1133.   if (x == NULL)

  1134.   {

  1135.     x = find_line_number (LineNumber);        /* not found in the cache */

  1136.   }

  1137.   if (x != NULL)

  1138.   {

  1139.     /* FOUND */

  1140.     line_skip_eol (l);

  1141.     /* save current stack level */

  1142.     My->StackHead->line = l;

  1143.     /* increment exec stack */

  1144.     if (bwb_incexec ())

  1145.     {

  1146.       /* set the new position to x and return x */

  1147.       x->position = 0;

  1148.       My->StackHead->line = x;

  1149.       My->StackHead->ExecCode = EXEC_GOSUB;

  1150. #if THE_PRICE_IS_RIGHT

  1151.       l->OtherLine = x;                /* save in cache */

  1152. #endif /* THE_PRICE_IS_RIGHT */

  1153.       return x;

  1154.     }

  1155.     else

  1156.     {

  1157.       /* ERROR */

  1158.       WARN_OUT_OF_MEMORY;

  1159.       return My->EndMarker;

  1160.     }

  1161.   }

  1162.   /* NOT FOUND */

  1163.   WARN_UNDEFINED_LINE;

  1164.   return (l);

  1165. }

  1166. 

  1167. 

  1168. 

  1169. /* 

  1170. --------------------------------------------------------------------------------------------

  1171.                                RETURN

  1172. --------------------------------------------------------------------------------------------

  1173. */

  1174. 

  1175. LineType *

  1176. bwb_RETURN (LineType * l)

  1177. {

  1178.   /*

  1179.      SYNTAX:     RETURN

  1180.    */

  1181.    

  1182.   assert (l != NULL);

  1183.   assert (My != NULL);

  1184.   assert (My->CurrentVersion != NULL);

  1185.   assert (My->StackHead != NULL);

  1186. 

  1187.   if (My->CurrentVersion->OptionVersionValue & (S70 | I70 | I73))

  1188.   {

  1189.     /* RETURN [comment] */

  1190.     line_skip_eol (l);

  1191.   }

  1192. 

  1193.   if (My->CurrentVersion->OptionVersionValue & (C77))

  1194.   {

  1195.     /* CBASIC-II: RETURN exits the first FUNCTION or GOSUB */

  1196. 

  1197.     while (My->StackHead->ExecCode != EXEC_GOSUB

  1198.            && My->StackHead->ExecCode != EXEC_FUNCTION)

  1199.     {

  1200.       bwb_decexec ();

  1201.       if (My->StackHead == NULL)

  1202.       {

  1203.         WARN_RETURN_WITHOUT_GOSUB;

  1204.         return (l);

  1205.       }

  1206.       if (My->StackHead->ExecCode == EXEC_NORM)        /* End of the line? */

  1207.       {

  1208.         WARN_RETURN_WITHOUT_GOSUB;

  1209.         return (l);

  1210.       }

  1211.     }

  1212.   }

  1213.   else

  1214.   {

  1215.     /* RETURN exits the first GOSUB */

  1216. 

  1217.     while (My->StackHead->ExecCode != EXEC_GOSUB)

  1218.     {

  1219.       bwb_decexec ();

  1220.       if (My->StackHead == NULL)

  1221.       {

  1222.         WARN_RETURN_WITHOUT_GOSUB;

  1223.         return (l);

  1224.       }

  1225.       if (My->StackHead->ExecCode == EXEC_NORM)        /* End of the line? */

  1226.       {

  1227.         WARN_RETURN_WITHOUT_GOSUB;

  1228.         return (l);

  1229.       }

  1230.     }

  1231.   }

  1232. 

  1233. 

  1234.   /* decrement the EXEC stack counter */

  1235. 

  1236.   bwb_decexec ();

  1237.   assert (My->StackHead != NULL);

  1238.   return My->StackHead->line;

  1239. }

  1240. 

  1241. /* 

  1242. --------------------------------------------------------------------------------------------

  1243.                                POP

  1244. --------------------------------------------------------------------------------------------

  1245. */

  1246. 

  1247. 

  1248. LineType *

  1249. bwb_POP (LineType * l)

  1250. {

  1251.   /*

  1252.      SYNTAX:     POP

  1253.    */

  1254.   StackType *StackItem;

  1255.    

  1256.   assert (l != NULL);

  1257.   assert (My != NULL);

  1258.   assert (My->CurrentVersion != NULL);

  1259.   assert (My->StackHead != NULL);

  1260. 

  1261.   StackItem = My->StackHead;

  1262.   while (StackItem->ExecCode != EXEC_GOSUB)

  1263.   {

  1264.     StackItem = StackItem->next;

  1265.     if (StackItem == NULL)

  1266.     {

  1267.       WARN_RETURN_WITHOUT_GOSUB;

  1268.       return (l);

  1269.     }

  1270.     if (StackItem->ExecCode == EXEC_NORM)

  1271.     {

  1272.       /* End of the line */

  1273.       WARN_RETURN_WITHOUT_GOSUB;

  1274.       return (l);

  1275.     }

  1276.   }

  1277.   /* hide the GOSUB */

  1278.   StackItem->ExecCode = EXEC_POPPED;

  1279.   return (l);

  1280. }

  1281. 

  1282. /* 

  1283. --------------------------------------------------------------------------------------------

  1284.                                ON

  1285. --------------------------------------------------------------------------------------------

  1286. */

  1287. 

  1288. LineType *

  1289. bwb_ON (LineType * l)

  1290. {

  1291.   /*

  1292.      SYNTAX:     ON expression GOTO  line,...    ' expression evaluates to an index

  1293.      SYNTAX:     ON expression GOSUB line,...    ' expression evaluates to an index

  1294.    */

  1295.   int Value;

  1296.   int command;

  1297.   int LineNumber;

  1298.   LineType *x;

  1299.    

  1300.   assert (l != NULL);

  1301.   assert (My != NULL);

  1302.   assert (My->CurrentVersion != NULL);

  1303. 

  1304.   Value = 0;

  1305.   command = 0;

  1306.   LineNumber = 0;

  1307.   x = NULL;

  1308.   if (l->LineFlags & (LINE_USER))

  1309.   {

  1310.     WARN_ILLEGAL_DIRECT;

  1311.     return (l);

  1312.   }

  1313. 

  1314.   if (line_is_eol (l))

  1315.   {

  1316.     WARN_SYNTAX_ERROR;

  1317.     return (l);

  1318.   }

  1319.   if (line_read_integer_expression (l, &Value) == FALSE)

  1320.   {

  1321.     WARN_UNDEFINED_LINE;

  1322.     return (l);

  1323.   }

  1324.   if (line_skip_word (l, "GO"))

  1325.   {

  1326.     if (line_skip_word (l, "TO"))

  1327.     {

  1328.       command = C_GOTO;

  1329.     }

  1330.     else if (line_skip_word (l, "SUB"))

  1331.     {

  1332.       command = C_GOSUB;

  1333.     }

  1334.     else

  1335.     {

  1336.       WARN_SYNTAX_ERROR;

  1337.       return (l);

  1338.     }

  1339.   }

  1340.   else if (line_skip_word (l, "GOTO"))

  1341.   {

  1342.     command = C_GOTO;

  1343.   }

  1344.   else if (line_skip_word (l, "GOSUB"))

  1345.   {

  1346.     command = C_GOSUB;

  1347.   }

  1348.   else

  1349.   {

  1350.     WARN_SYNTAX_ERROR;

  1351.     return (l);

  1352.   }

  1353. 

  1354.   /* 'Value' is an index into a list of line numbers */

  1355.   if (line_read_index_item (l, Value, &LineNumber))

  1356.   {

  1357.     /* found 'LineNumber' */

  1358.   }

  1359.   else if (My->CurrentVersion->OptionFlags & (OPTION_BUGS_ON) ) /* ON X GOTO|GOSUB ... */

  1360.   {

  1361.     /* silently fall-thru to the following line */

  1362.     line_skip_eol (l);

  1363.     return (l);

  1364.   }

  1365.   else

  1366.   {

  1367.     /* ERROR */

  1368.     WARN_UNDEFINED_LINE;

  1369.     return (l);

  1370.   }

  1371. 

  1372.   if (LineNumber < MINLIN || LineNumber > MAXLIN)

  1373.   {

  1374.     WARN_UNDEFINED_LINE;

  1375.     return (l);

  1376.   }

  1377.   /* valid range */

  1378.   x = NULL;

  1379. #if THE_PRICE_IS_RIGHT

  1380.   if (l->OtherLine != NULL)

  1381.   {

  1382.     /* look in the cache */

  1383.     if (l->OtherLine->number == LineNumber)

  1384.     {

  1385.       x = l->OtherLine;                /* found in cache */

  1386.     }

  1387.   }

  1388. #endif /* THE_PRICE_IS_RIGHT */

  1389.   if (x == NULL)

  1390.   {

  1391.     x = find_line_number (LineNumber);        /* not found in the cache */

  1392.   }

  1393.   if (x != NULL)

  1394.   {

  1395.     /* FOUND */

  1396.     if (command == C_GOTO)

  1397.     {

  1398.       /* ON ... GOTO ... */

  1399.       line_skip_eol (l);

  1400.       x->position = 0;

  1401. #if THE_PRICE_IS_RIGHT

  1402.       l->OtherLine = x;                /* save in cache */

  1403. #endif /* THE_PRICE_IS_RIGHT */

  1404.       return x;

  1405.     }

  1406.     else if (command == C_GOSUB)

  1407.     {

  1408.       /* ON ... GOSUB ... */

  1409.       line_skip_eol (l);

  1410.       /* save current stack level */

  1411.       My->StackHead->line = l;

  1412.       /* increment exec stack */

  1413.       if (bwb_incexec ())

  1414.       {

  1415.         /* set the new position to x and return x */

  1416.         x->position = 0;

  1417.         My->StackHead->line = x;

  1418.         My->StackHead->ExecCode = EXEC_GOSUB;

  1419. #if THE_PRICE_IS_RIGHT

  1420.         l->OtherLine = x;        /* save in cache */

  1421. #endif /* THE_PRICE_IS_RIGHT */

  1422.         return x;

  1423.       }

  1424.       else

  1425.       {

  1426.         /* ERROR */

  1427.         WARN_OUT_OF_MEMORY;

  1428.         return My->EndMarker;

  1429.       }

  1430.     }

  1431.     else

  1432.     {

  1433.       /* ERROR */

  1434.       WARN_SYNTAX_ERROR;

  1435.       return (l);

  1436.     }

  1437.   }

  1438.   /* NOT FOUND */

  1439.   WARN_UNDEFINED_LINE;

  1440.   return (l);

  1441. }

  1442. 

  1443. /* 

  1444. --------------------------------------------------------------------------------------------

  1445.                                PAUSE

  1446. --------------------------------------------------------------------------------------------

  1447. */

  1448. 

  1449. LineType *

  1450. bwb_PAUSE (LineType * l)

  1451. {

  1452.   /*

  1453.      SYNTAX:     PAUSE

  1454.    */

  1455.   char *pstring;

  1456.   char *tbuf;

  1457.   int tlen;

  1458.    

  1459.   assert (l != NULL);

  1460.   assert (My != NULL);

  1461.   assert (My->CurrentVersion != NULL);

  1462.   assert (My->ConsoleOutput != NULL);

  1463.   assert (My->ConsoleInput != NULL);

  1464. 

  1465.   pstring = My->ConsoleOutput;

  1466.   tbuf = My->ConsoleInput;

  1467.   tlen = MAX_LINE_LENGTH;

  1468.   if (My->CurrentVersion->OptionVersionValue & (S70 | I70 | I73))

  1469.   {

  1470.     /* PAUSE [comment] */

  1471.     line_skip_eol (l);

  1472.   }

  1473.   sprintf (pstring, "PAUSE AT %d\n", l->number);

  1474.   bwx_input (pstring, FALSE, tbuf, tlen);

  1475.   return (l);

  1476. }

  1477. 

  1478. 

  1479. /* 

  1480. --------------------------------------------------------------------------------------------

  1481.                                STOP

  1482. --------------------------------------------------------------------------------------------

  1483. */

  1484. 

  1485. LineType *

  1486. bwb_STOP (LineType * l)

  1487. {

  1488.   /*

  1489.      SYNTAX:     STOP

  1490.    */

  1491.    

  1492.   assert (l != NULL);

  1493.   assert (My != NULL);

  1494.   assert (My->CurrentVersion != NULL);

  1495. 

  1496.   if (My->CurrentVersion->OptionVersionValue & (S70 | I70 | I73))

  1497.   {

  1498.     /* STOP [comment] */

  1499.     line_skip_eol (l);

  1500.   }

  1501.   My->ContinueLine = l->next;

  1502.   bwx_STOP (TRUE);

  1503.   return bwb_END (l);

  1504. }

  1505. 

  1506. 

  1507. /* 

  1508. --------------------------------------------------------------------------------------------

  1509.                                END

  1510. --------------------------------------------------------------------------------------------

  1511. */

  1512. 

  1513. LineType *

  1514. bwb_END (LineType * l)

  1515. {

  1516.   /*

  1517.      SYNTAX:     END

  1518.    */

  1519.    

  1520.   assert (l != NULL);

  1521.   assert (My != NULL);

  1522.   assert (My->CurrentVersion != NULL);

  1523. 

  1524.   if (My->CurrentVersion->OptionVersionValue & (S70 | I70 | I73))

  1525.   {

  1526.     /* END [comment] */

  1527.     line_skip_eol (l);

  1528.   }

  1529.   My->ContinueLine = l->next;

  1530.   bwx_STOP (FALSE);

  1531.   return My->EndMarker;

  1532. }

  1533. 

  1534. /* 

  1535. --------------------------------------------------------------------------------------------

  1536.                                RUN

  1537. --------------------------------------------------------------------------------------------

  1538. */

  1539. 

  1540. static LineType *

  1541. bwb_run_filename_or_linenumber (LineType * L)

  1542. {

  1543.   LineType *current = NULL;

  1544.   VariantType x;

  1545.   VariantType *X;

  1546.    

  1547.   assert (L != NULL);

  1548.   assert (My != NULL);

  1549.   assert (My->StartMarker != NULL);

  1550. 

  1551.   X = &x;

  1552.   CLEAR_VARIANT (X);

  1553.   if (line_read_expression (L, X) == FALSE)        /* bwb_run_filename_or_linenumber */

  1554.   {

  1555.     WARN_SYNTAX_ERROR;

  1556.     return L;

  1557.   }

  1558.   if (X->VariantTypeCode == StringTypeCode)

  1559.   {

  1560.     /* RUN "filename" */

  1561.     /* RUN A$ */

  1562.     if (is_empty_string (X->Buffer))

  1563.     {

  1564.       WARN_BAD_FILE_NAME;

  1565.       return L;

  1566.     }

  1567.     /* open the file and execute it */

  1568.     bwb_new ();                        /* clear memory */

  1569.     if (My->ProgramFilename != NULL)

  1570.     {

  1571.       free (My->ProgramFilename);

  1572.       My->ProgramFilename = NULL;

  1573.     }

  1574.     My->ProgramFilename = bwb_strdup (X->Buffer);

  1575.     if (bwb_fload (NULL) == FALSE)

  1576.     {

  1577.       WARN_BAD_FILE_NAME;

  1578.       return L;

  1579.     }

  1580.     /*

  1581.      **

  1582.      ** FORCE SCAN

  1583.      **

  1584.      */

  1585.     if (bwb_scan () == FALSE)

  1586.     {

  1587.       WARN_CANT_CONTINUE;

  1588.       return L;

  1589.     }

  1590.     current = My->StartMarker->next;

  1591.   }

  1592.   else

  1593.   {

  1594.     /* RUN 100 */

  1595.     /* RUN N */

  1596.     /* execute the line */

  1597.     int LineNumber;

  1598. 

  1599. 

  1600.     LineNumber = (int) bwb_rint (X->Number);

  1601.     /*

  1602.      **

  1603.      ** FORCE SCAN

  1604.      **

  1605.      */

  1606.     if (bwb_scan () == FALSE)

  1607.     {

  1608.       WARN_CANT_CONTINUE;

  1609.       goto EXIT;

  1610.     }

  1611.     current = find_line_number (LineNumber);        /* RUN 100 */

  1612.     if (current == NULL)

  1613.     {

  1614.       WARN_CANT_CONTINUE;

  1615.       return L;

  1616.     }

  1617.   }

  1618. EXIT:

  1619.   RELEASE_VARIANT (X);

  1620.   return current;

  1621. }

  1622. 

  1623. LineType *

  1624. bwb_RUNNH (LineType * L)

  1625. {

  1626.    

  1627.   assert (L != NULL);

  1628.   return bwb_RUN (L);

  1629. }

  1630. 

  1631. LineType *

  1632. bwb_RUN (LineType * L)

  1633. {

  1634.   /*

  1635.      SYNTAX:     RUN

  1636.      SYNTAX:     RUN filename$

  1637.      SYNTAX:     RUN linenumber

  1638.    */

  1639.   LineType *current;

  1640.    

  1641.   assert (L != NULL);

  1642.   assert (My != NULL);

  1643.   assert (My->EndMarker != NULL);

  1644.   assert (My->DefaultVariableType != NULL);

  1645.   

  1646.   /* clear the STACK */

  1647.   bwb_clrexec ();

  1648.   if (bwb_incexec ())

  1649.   {

  1650.     /* OK */

  1651.   }

  1652.   else

  1653.   {

  1654.     /* ERROR */

  1655.     WARN_OUT_OF_MEMORY;

  1656.     return My->EndMarker;

  1657.   }

  1658. 

  1659.   if (line_is_eol (L))

  1660.   {

  1661.     /* RUN */

  1662. 

  1663.     var_CLEAR ();

  1664. 

  1665.     /* if( TRUE ) */

  1666.     {

  1667.       int n;

  1668.       for (n = 0; n < 26; n++)

  1669.       {

  1670.         My->DefaultVariableType[n] = DoubleTypeCode;

  1671.       }

  1672.     }

  1673.     /*

  1674.      **

  1675.      ** FORCE SCAN

  1676.      **

  1677.      */

  1678.     if (bwb_scan () == FALSE)

  1679.     {

  1680.       WARN_CANT_CONTINUE;

  1681.       return My->EndMarker;

  1682.     }

  1683.     current = My->StartMarker->next;

  1684.   }

  1685.   else

  1686.   {

  1687.     /* RUN 100 : RUN filename$ */

  1688.     current = bwb_run_filename_or_linenumber (L);

  1689.     if (current == NULL)

  1690.     {

  1691.       WARN_UNDEFINED_LINE;

  1692.       return My->EndMarker;

  1693.     }

  1694.   }

  1695.   current->position = 0;

  1696. 

  1697.   assert (My->StackHead != NULL);

  1698.   My->StackHead->line = current;

  1699.   My->StackHead->ExecCode = EXEC_NORM;

  1700. 

  1701.   /* RUN */

  1702.   WARN_CLEAR;                        /* bwb_RUN */

  1703.   My->ContinueLine = NULL;

  1704.   SetOnError (0);

  1705. 

  1706.   /* if( TRUE ) */

  1707.   {

  1708.     time_t t;

  1709.     struct tm *lt;

  1710. 

  1711.     time (&t);

  1712.     lt = localtime (&t);

  1713.     My->StartTimeInteger = lt->tm_hour;

  1714.     My->StartTimeInteger *= 60;

  1715.     My->StartTimeInteger += lt->tm_min;

  1716.     My->StartTimeInteger *= 60;

  1717.     My->StartTimeInteger += lt->tm_sec;

  1718.     /* number of seconds since midnight */

  1719.   }

  1720. 

  1721.   return current;

  1722. }

  1723. 

  1724. /* 

  1725. --------------------------------------------------------------------------------------------

  1726.                                CONT

  1727. --------------------------------------------------------------------------------------------

  1728. */

  1729. LineType *

  1730. bwb_CONTINUE (LineType * l)

  1731. {

  1732.   /*

  1733.      SYNTAX:     CONTINUE

  1734.    */

  1735.    

  1736.   assert (l != NULL);

  1737.   return bwb_CONT (l);

  1738. }

  1739. 

  1740. LineType *

  1741. bwb_CONT (LineType * l)

  1742. {

  1743.   /*

  1744.      SYNTAX:     CONT

  1745.    */

  1746.   LineType *current;

  1747.    

  1748.   assert (l != NULL);

  1749.   assert (My != NULL);

  1750.   assert (My->EndMarker != NULL);

  1751.   assert (My->StartMarker != NULL);

  1752. 

  1753.   current = NULL;

  1754.   /* see if there is an element */

  1755.   if (line_is_eol (l))

  1756.   {

  1757.     /* CONT */

  1758.     current = My->ContinueLine;

  1759.   }

  1760.   else

  1761.   {

  1762.     /* CONT 100 */

  1763.     int LineNumber;

  1764. 

  1765.     LineNumber = 0;

  1766.     if (line_read_line_number (l, &LineNumber))

  1767.     {

  1768.       current = find_line_number (LineNumber);        /* CONT 100 */

  1769.     }

  1770.   }

  1771. 

  1772. 

  1773.   if (current == NULL || current == My->EndMarker)

  1774.   {

  1775.     /* same as RUN */

  1776.     current = My->StartMarker->next;

  1777.   }

  1778.   /*

  1779.    **

  1780.    ** FORCE SCAN

  1781.    **

  1782.    */

  1783.   if (bwb_scan () == FALSE)

  1784.   {

  1785.     WARN_CANT_CONTINUE;

  1786.     return (l);

  1787.   }

  1788.   current->position = 0;

  1789.   bwb_clrexec ();

  1790.   if (bwb_incexec ())

  1791.   {

  1792.     /* OK */

  1793.     My->StackHead->line = current;

  1794.     My->StackHead->ExecCode = EXEC_NORM;

  1795.   }

  1796.   else

  1797.   {

  1798.     /* ERROR */

  1799.     WARN_OUT_OF_MEMORY;

  1800.     return My->EndMarker;

  1801.   }

  1802. 

  1803. 

  1804.   /* CONT */

  1805.   My->ContinueLine = NULL;

  1806.   return current;

  1807. }

  1808. 

  1809. 

  1810. /* 

  1811. --------------------------------------------------------------------------------------------

  1812.                                NEW

  1813. --------------------------------------------------------------------------------------------

  1814. */

  1815. 

  1816. void

  1817. bwb_xnew (LineType * l)

  1818. {

  1819.   LineType *current;

  1820.   LineType *previous;

  1821.   int wait;

  1822.    

  1823.   assert (l != NULL);

  1824.   assert (My != NULL);

  1825.   assert (My->EndMarker != NULL);

  1826. 

  1827.   previous = NULL;                /* JBV */

  1828.   wait = TRUE;

  1829.   for (current = l->next; current != My->EndMarker; current = current->next)

  1830.   {

  1831.     assert (current != NULL);

  1832.     if (wait == FALSE)

  1833.     {

  1834.       free (previous);

  1835.       previous = NULL;

  1836.     }

  1837.     wait = FALSE;

  1838.     previous = current;

  1839.   }

  1840.   l->next = My->EndMarker;

  1841. }

  1842. 

  1843. static void

  1844. bwb_new ()

  1845. {

  1846.   assert (My != NULL);

  1847.   assert (My->StartMarker != NULL);

  1848.   assert (My->DefaultVariableType != NULL);

  1849.    

  1850. 

  1851.   /* clear program in memory */

  1852.   bwb_xnew (My->StartMarker);

  1853. 

  1854.   /* clear all variables */

  1855.   var_CLEAR ();

  1856.   /* if( TRUE ) */

  1857.   {

  1858.     int n;

  1859.     for (n = 0; n < 26; n++)

  1860.     {

  1861.       My->DefaultVariableType[n] = DoubleTypeCode;

  1862.     }

  1863.   }

  1864. 

  1865.   /* NEW */

  1866.   WARN_CLEAR;                        /* bwb_new */

  1867.   My->ContinueLine = NULL;

  1868.   SetOnError (0);

  1869. }

  1870. 

  1871. LineType *

  1872. bwb_NEW (LineType * l)

  1873. {

  1874.   /*

  1875.      SYNTAX:     NEW

  1876.    */

  1877.    

  1878.   assert (l != NULL);

  1879.   assert (My != NULL);

  1880.   assert (My->CurrentVersion != NULL);

  1881. 

  1882.   bwb_new ();

  1883.   if (My->CurrentVersion->OptionVersionValue & (D64 | G65 | G67 | G74))

  1884.   {

  1885.     if (line_is_eol (l))

  1886.     {

  1887.       /* NEW */

  1888.       char *tbuf;

  1889.       int tlen;

  1890. 

  1891.       tbuf = My->ConsoleInput;

  1892.       tlen = MAX_LINE_LENGTH;

  1893.       /* prompt for the program name */

  1894.       bwx_input ("NEW PROBLEM NAME:", FALSE, tbuf, tlen);

  1895.       if (is_empty_string (tbuf))

  1896.       {

  1897.         WARN_BAD_FILE_NAME;

  1898.         return l;

  1899.       }

  1900.       if (My->ProgramFilename != NULL)

  1901.       {

  1902.         free (My->ProgramFilename);

  1903.         My->ProgramFilename = NULL;

  1904.       }

  1905.       My->ProgramFilename = bwb_strdup (tbuf);

  1906.     }

  1907.     else

  1908.     {

  1909.       /* NEW filename$ */

  1910.       /* the parameter is the program name */

  1911. 

  1912.       char *Value;

  1913. 

  1914.       Value = NULL;

  1915.       if (line_read_string_expression (l, &Value) == FALSE)

  1916.       {

  1917.         WARN_SYNTAX_ERROR;

  1918.         return (l);

  1919.       }

  1920.       if (is_empty_string (Value))

  1921.       {

  1922.         WARN_BAD_FILE_NAME;

  1923.         return l;

  1924.       }

  1925.       if (My->ProgramFilename != NULL)

  1926.       {

  1927.         free (My->ProgramFilename);

  1928.         My->ProgramFilename = NULL;

  1929.       }

  1930.       My->ProgramFilename = Value;

  1931.     }

  1932.   }

  1933.   else

  1934.   {

  1935.     /* ignore any parameters */

  1936.     line_skip_eol (l);

  1937.   }

  1938.   return (l);

  1939. }

  1940. 

  1941. /* 

  1942. --------------------------------------------------------------------------------------------

  1943.                                SCRATCH

  1944. --------------------------------------------------------------------------------------------

  1945. */

  1946. 

  1947. LineType *

  1948. bwb_SCRATCH (LineType * l)

  1949. {

  1950.   /*

  1951.      SYNTAX:     SCRATCH              -- same as NEW

  1952.      SYNTAX:     SCRATCH # filenumber -- close file and re-open for output

  1953.    */

  1954.    

  1955.   assert (l != NULL);

  1956. 

  1957.   if (line_is_eol (l))

  1958.   {

  1959.     /* SCRATCH */

  1960.     bwb_new ();

  1961.     return (l);

  1962.   }

  1963.   if (line_skip_FilenumChar (l))

  1964.   {

  1965.     /* SCRATCH # X */

  1966.     int FileNumber;

  1967. 

  1968.     if (line_read_integer_expression (l, &FileNumber) == FALSE)

  1969.     {

  1970.       WARN_BAD_FILE_NUMBER;

  1971.       return (l);

  1972.     }

  1973.     if (FileNumber < 0)

  1974.     {

  1975.       /* SCRATCH # -1 is silently ignored */

  1976.       return (l);

  1977.     }

  1978.     if (FileNumber == 0)

  1979.     {

  1980.       /* SCRATCH # 0 is silently ignored */

  1981.       return (l);

  1982.     }

  1983.     My->CurrentFile = find_file_by_number (FileNumber);

  1984.     if (My->CurrentFile == NULL)

  1985.     {

  1986.       WARN_BAD_FILE_NUMBER;

  1987.       return (l);

  1988.     }

  1989.     if (My->CurrentFile->DevMode != DEVMODE_CLOSED)

  1990.     {

  1991.       My->CurrentFile->DevMode = DEVMODE_CLOSED;

  1992.     }

  1993.     if (My->CurrentFile->cfp != NULL)

  1994.     {

  1995.       bwb_fclose (My->CurrentFile->cfp);

  1996.       My->CurrentFile->cfp = NULL;

  1997.     }

  1998.     if (My->CurrentFile->buffer != NULL)

  1999.     {

  2000.       free (My->CurrentFile->buffer);

  2001.       My->CurrentFile->buffer = NULL;

  2002.     }

  2003.     My->CurrentFile->width = 0;

  2004.     My->CurrentFile->col = 1;

  2005.     My->CurrentFile->row = 1;

  2006.     My->CurrentFile->delimit = ',';

  2007.     if (is_empty_string (My->CurrentFile->FileName))

  2008.     {

  2009.       WARN_BAD_FILE_NAME;

  2010.       return (l);

  2011.     }

  2012.     if (bwb_strcmp (My->CurrentFile->FileName, "*") != 0)

  2013.     {

  2014.       if ((My->CurrentFile->cfp =

  2015.            fopen (My->CurrentFile->FileName, "w")) == NULL)

  2016.       {

  2017.         WARN_BAD_FILE_NAME;

  2018.         return (l);

  2019.       }

  2020.       My->CurrentFile->DevMode = DEVMODE_OUTPUT;

  2021.     }

  2022.     /* OK */

  2023.     return (l);

  2024.   }

  2025.   WARN_SYNTAX_ERROR;

  2026.   return (l);

  2027. }

  2028. 

  2029. /* 

  2030. ============================================================================================

  2031.                                SYSTEM and so on

  2032. ============================================================================================

  2033. */

  2034. static LineType *

  2035. bwb_system (LineType * l)

  2036. {

  2037.   /*

  2038.      SYNTAX:     SYSTEM

  2039.    */

  2040.   assert (l != NULL);

  2041.   assert (My != NULL);

  2042.   assert (My->SYSOUT != NULL);

  2043.   assert (My->SYSOUT->cfp != NULL);

  2044. 

  2045.   fprintf (My->SYSOUT->cfp, "\n");

  2046.   fflush (My->SYSOUT->cfp);

  2047.   bwx_terminate ();

  2048.   return (l);                        /* never reached */

  2049. }

  2050. 

  2051. /* 

  2052. --------------------------------------------------------------------------------------------

  2053.                                BYE

  2054. --------------------------------------------------------------------------------------------

  2055. */

  2056. 

  2057. LineType *

  2058. bwb_BYE (LineType * l)

  2059. {

  2060.   /*

  2061.      SYNTAX:     BYE

  2062.    */

  2063.    

  2064.   assert (l != NULL);

  2065.   return bwb_system (l);

  2066. }

  2067. 

  2068. /* 

  2069. --------------------------------------------------------------------------------------------

  2070.                                DOS

  2071. --------------------------------------------------------------------------------------------

  2072. */

  2073. 

  2074. LineType *

  2075. bwb_DOS (LineType * l)

  2076. {

  2077.   /*

  2078.      SYNTAX:     DOS

  2079.    */

  2080.    

  2081.   assert (l != NULL);

  2082.   return bwb_system (l);

  2083. }

  2084. 

  2085. /* 

  2086. --------------------------------------------------------------------------------------------

  2087.                                FLEX

  2088. --------------------------------------------------------------------------------------------

  2089. */

  2090. 

  2091. LineType *

  2092. bwb_FLEX (LineType * l)

  2093. {

  2094.   /*

  2095.      SYNTAX:     FLEX

  2096.    */

  2097.    

  2098.   assert (l != NULL);

  2099.   return bwb_system (l);

  2100. }

  2101. 

  2102. /* 

  2103. --------------------------------------------------------------------------------------------

  2104.                                GOODBYE

  2105. --------------------------------------------------------------------------------------------

  2106. */

  2107. LineType *

  2108. bwb_GOODBYE (LineType * l)

  2109. {

  2110.   /*

  2111.      SYNTAX:     GOODBYE

  2112.    */

  2113.    

  2114.   assert (l != NULL);

  2115.   return bwb_system (l);

  2116. }

  2117. 

  2118. /* 

  2119. --------------------------------------------------------------------------------------------

  2120.                                MON

  2121. --------------------------------------------------------------------------------------------

  2122. */

  2123. 

  2124. LineType *

  2125. bwb_MON (LineType * l)

  2126. {

  2127.   /*

  2128.      SYNTAX:     MON

  2129.    */

  2130.    

  2131.   assert (l != NULL);

  2132.   return bwb_system (l);

  2133. }

  2134. 

  2135. /* 

  2136. --------------------------------------------------------------------------------------------

  2137.                                QUIT

  2138. --------------------------------------------------------------------------------------------

  2139. */

  2140. LineType *

  2141. bwb_QUIT (LineType * l)

  2142. {

  2143.   /*

  2144.      SYNTAX:     QUIT

  2145.    */

  2146.    

  2147.   assert (l != NULL);

  2148.   return bwb_system (l);

  2149. }

  2150. 

  2151. /* 

  2152. --------------------------------------------------------------------------------------------

  2153.                                SYSTEM

  2154. --------------------------------------------------------------------------------------------

  2155. */

  2156. LineType *

  2157. bwb_SYSTEM (LineType * l)

  2158. {

  2159.   /*

  2160.      SYNTAX:     SYSTEM

  2161.    */

  2162.    

  2163.   assert (l != NULL);

  2164.   return bwb_system (l);

  2165. }

  2166. 

  2167. 

  2168. /* 

  2169. ============================================================================================

  2170.                                LOAD and so on

  2171. ============================================================================================

  2172. */

  2173. 

  2174. static LineType *

  2175. bwb_load (LineType * Line, char *Prompt, int IsNew)

  2176. {

  2177.   /*

  2178.    **

  2179.    ** load a BASIC program from a file

  2180.    **

  2181.    */

  2182.   /*

  2183.      SYNTAX:     ... [filename$]

  2184.    */

  2185.    

  2186.   assert (Line != NULL);

  2187.   assert (Prompt != NULL);

  2188.   assert (My != NULL);

  2189.   assert (My->CurrentVersion != NULL);

  2190. 

  2191.   if (IsNew)

  2192.   {

  2193.     /* TRUE == LOAD */

  2194.     bwb_new ();

  2195.   }

  2196.   else

  2197.   {

  2198.     /* FALSE == MERGE */

  2199.     if (My->ProgramFilename != NULL)

  2200.     {

  2201.       free (My->ProgramFilename);

  2202.       My->ProgramFilename = NULL;

  2203.     }

  2204.   }

  2205.   if (line_is_eol (Line))

  2206.   {

  2207.     /* default is the last filename used by LOAD or SAVE */

  2208.     /* if( My->CurrentVersion->OptionVersionValue & (D64 | G65 | G67 | G74) ) */

  2209.     if (is_empty_string (My->ProgramFilename))

  2210.     {

  2211.       /* prompt for the program name */

  2212.       char *tbuf;

  2213.       int tlen;

  2214. 

  2215.       tbuf = My->ConsoleInput;

  2216.       tlen = MAX_LINE_LENGTH;

  2217.       bwx_input (Prompt, FALSE, tbuf, tlen);

  2218.       if (is_empty_string (tbuf))

  2219.       {

  2220.         WARN_BAD_FILE_NAME;

  2221.         return (Line);

  2222.       }

  2223.       if (My->ProgramFilename != NULL)

  2224.       {

  2225.         free (My->ProgramFilename);

  2226.         My->ProgramFilename = NULL;

  2227.       }

  2228.       My->ProgramFilename = bwb_strdup (tbuf);

  2229.     }

  2230.     fprintf (My->SYSOUT->cfp, "Loading %s\n", My->ProgramFilename);

  2231.     ResetConsoleColumn ();

  2232.   }

  2233.   else

  2234.   {

  2235.     /* Get an argument for filename */

  2236.     char *Value;

  2237. 

  2238.     Value = NULL;

  2239.     if (line_read_string_expression (Line, &Value) == FALSE)

  2240.     {

  2241.       WARN_SYNTAX_ERROR;

  2242.       return (Line);

  2243.     }

  2244.     if (is_empty_string (Value))

  2245.     {

  2246.       WARN_BAD_FILE_NAME;

  2247.       return (Line);

  2248.     }

  2249.     if (My->ProgramFilename != NULL)

  2250.     {

  2251.       free (My->ProgramFilename);

  2252.       My->ProgramFilename = NULL;

  2253.     }

  2254.     My->ProgramFilename = Value;

  2255.   }

  2256.   if (bwb_fload (NULL) == FALSE)

  2257.   {

  2258.     WARN_BAD_FILE_NAME;

  2259.     return (Line);

  2260.   }

  2261.   if (IsNew)

  2262.   {

  2263.     /* TRUE == LOAD */

  2264.   }

  2265.   else

  2266.   {

  2267.     /* FALSE == MERGE */

  2268.     if (My->ProgramFilename != NULL)

  2269.     {

  2270.       free (My->ProgramFilename);

  2271.       My->ProgramFilename = NULL;

  2272.     }

  2273.   }

  2274.   /*

  2275.    **

  2276.    ** FORCE SCAN

  2277.    **

  2278.    */

  2279.   if (bwb_scan () == FALSE)

  2280.   {

  2281.     WARN_CANT_CONTINUE;

  2282.   }

  2283.   return (Line);

  2284. }

  2285. 

  2286. /* 

  2287. --------------------------------------------------------------------------------------------

  2288.                                CLOAD

  2289. --------------------------------------------------------------------------------------------

  2290. */

  2291. LineType *

  2292. bwb_CLOAD (LineType * Line)

  2293. {

  2294.   /*

  2295.      SYNTAX:     CLOAD [filename$]

  2296.    */

  2297.    

  2298.   assert (Line != NULL);

  2299.   return bwb_load (Line, "CLOAD FILE NAME:", TRUE);

  2300. }

  2301. 

  2302. /* 

  2303. --------------------------------------------------------------------------------------------

  2304.                                LOAD

  2305. --------------------------------------------------------------------------------------------

  2306. */

  2307. LineType *

  2308. bwb_LOAD (LineType * Line)

  2309. {

  2310.   /*

  2311.      SYNTAX:     LOAD [filename$]

  2312.    */

  2313.    

  2314.   assert (Line != NULL);

  2315.   return bwb_load (Line, "LOAD FILE NAME:", TRUE);

  2316. }

  2317. 

  2318. /* 

  2319. --------------------------------------------------------------------------------------------

  2320.                                MERGE

  2321. --------------------------------------------------------------------------------------------

  2322. */

  2323. LineType *

  2324. bwb_MERGE (LineType * l)

  2325. {

  2326.   /*

  2327.      SYNTAX:     MERGE [filename$]

  2328.    */

  2329.    

  2330.   assert (l != NULL);

  2331.   return bwb_load (l, "MERGE FILE NAME:", FALSE);

  2332. }

  2333. 

  2334. /* 

  2335. --------------------------------------------------------------------------------------------

  2336.                                OLD

  2337. --------------------------------------------------------------------------------------------

  2338. */

  2339. LineType *

  2340. bwb_OLD (LineType * Line)

  2341. {

  2342.   /*

  2343.      SYNTAX:     OLD [filename$]

  2344.    */

  2345.    

  2346.   assert (Line != NULL);

  2347.   return bwb_load (Line, "OLD PROBLEM NAME:", TRUE);

  2348. }

  2349. 

  2350. /* 

  2351. --------------------------------------------------------------------------------------------

  2352.                                TLOAD

  2353. --------------------------------------------------------------------------------------------

  2354. */

  2355. LineType *

  2356. bwb_TLOAD (LineType * Line)

  2357. {

  2358.   /*

  2359.      SYNTAX:     TLOAD [filename$]

  2360.    */

  2361.    

  2362.   assert (Line != NULL);

  2363.   return bwb_load (Line, "TLOAD FILE NAME:", TRUE);

  2364. }

  2365. 

  2366. 

  2367. /* 

  2368. --------------------------------------------------------------------------------------------

  2369.                                RENAME

  2370. --------------------------------------------------------------------------------------------

  2371. */

  2372. static LineType *

  2373. H14_RENAME (LineType * l)

  2374. {

  2375.   /*

  2376.      SYNTAX:     RENAME from$ TO to$

  2377.    */

  2378.   char *From;

  2379.   char *To;

  2380.    

  2381.   assert (l != NULL);

  2382. 

  2383.   From = NULL;

  2384.   To = NULL;

  2385.   if (line_read_string_expression (l, &From) == FALSE)

  2386.   {

  2387.     WARN_SYNTAX_ERROR;

  2388.     return (l);

  2389.   }

  2390.   if (is_empty_string (From))

  2391.   {

  2392.     WARN_BAD_FILE_NAME;

  2393.     return (l);

  2394.   }

  2395.   if (line_skip_word (l, "TO") == FALSE)

  2396.   {

  2397.     WARN_SYNTAX_ERROR;

  2398.     return (l);

  2399.   }

  2400.   if (line_read_string_expression (l, &To) == FALSE)

  2401.   {

  2402.     WARN_SYNTAX_ERROR;

  2403.     return (l);

  2404.   }

  2405.   if (is_empty_string (To))

  2406.   {

  2407.     WARN_BAD_FILE_NAME;

  2408.     return (l);

  2409.   }

  2410.   if (rename (From, To))

  2411.   {

  2412.     WARN_BAD_FILE_NAME;

  2413.     return (l);

  2414.   }

  2415.   return (l);

  2416. }

  2417. 

  2418. LineType *

  2419. bwb_RENAME (LineType * l)

  2420. {

  2421.   /*

  2422.      SYNTAX:     RENAME filename$

  2423.    */

  2424.    

  2425.   assert (l != NULL);

  2426.   assert( My != NULL );

  2427.   assert( My->CurrentVersion != NULL );

  2428.   assert( My->ConsoleInput != NULL );

  2429. 

  2430.   if (My->CurrentVersion->OptionVersionValue & (H14))

  2431.   {

  2432.     /* RENAME == change an exisiting file's name */

  2433.     return H14_RENAME (l);

  2434.   }

  2435.   /* RENAME == change the BASIC program's name for a later SAVE */

  2436.   if (line_is_eol (l))

  2437.   {

  2438.     /* RENAME */

  2439.     if (My->CurrentVersion->OptionVersionValue & (D64 | G65 | G67 | G74))

  2440.     {

  2441.       /* prompt for the program name */

  2442.       char *tbuf;

  2443.       int tlen;

  2444. 

  2445.       tbuf = My->ConsoleInput;

  2446.       tlen = MAX_LINE_LENGTH;

  2447.       bwx_input ("RENAME PROBLEM NAME:", FALSE, tbuf, tlen);

  2448.       if (is_empty_string (tbuf))

  2449.       {

  2450.         WARN_BAD_FILE_NAME;

  2451.         return (l);

  2452.       }

  2453.       if (My->ProgramFilename != NULL)

  2454.       {

  2455.         free (My->ProgramFilename);

  2456.         My->ProgramFilename = NULL;

  2457.       }

  2458.       My->ProgramFilename = bwb_strdup (tbuf);

  2459.     }

  2460.     else

  2461.     {

  2462.       WARN_SYNTAX_ERROR;

  2463.       return (l);

  2464.     }

  2465.   }

  2466.   else

  2467.   {

  2468.     /* RENAME value$ */

  2469.     char *Value;

  2470. 

  2471.     Value = NULL;

  2472.     if (line_read_string_expression (l, &Value) == FALSE)

  2473.     {

  2474.       WARN_SYNTAX_ERROR;

  2475.       return (l);

  2476.     }

  2477.     if (is_empty_string (Value))

  2478.     {

  2479.       WARN_BAD_FILE_NAME;

  2480.       return (l);

  2481.     }

  2482.     if (My->ProgramFilename != NULL)

  2483.     {

  2484.       free (My->ProgramFilename);

  2485.       My->ProgramFilename = NULL;

  2486.     }

  2487.     My->ProgramFilename = Value;

  2488.   }

  2489.   return (l);

  2490. }

  2491. 

  2492. 

  2493. /* 

  2494. --------------------------------------------------------------------------------------------

  2495.                                MAT

  2496. --------------------------------------------------------------------------------------------

  2497. */

  2498. 

  2499. extern void

  2500. Determinant (VariableType * v)

  2501. {

  2502.   /* http://easy-learn-c-language.blogspot.com/search/label/Numerical%20Methods */

  2503.   /* Numerical Methods: Determinant of nxn matrix using C */

  2504. 

  2505.   DoubleType **matrix;

  2506.   DoubleType ratio;

  2507. 

  2508.   int i;

  2509.   int j;

  2510.   int k;

  2511.   int n;

  2512.    

  2513.   assert (v != NULL);

  2514.   assert( My != NULL );

  2515. 

  2516. 

  2517.   My->LastDeterminant = 0;        /* default */

  2518. 

  2519.   n = v->UBOUND[0] - v->LBOUND[0] + 1;

  2520. 

  2521.   if ((matrix = (DoubleType **) calloc (n, sizeof (DoubleType *))) == NULL)

  2522.   {

  2523.     goto EXIT;

  2524.   }

  2525.   assert( matrix != NULL );

  2526.   for (i = 0; i < n; i++)

  2527.   {

  2528.     if ((matrix[i] = (DoubleType *) calloc (n, sizeof (DoubleType))) == NULL)

  2529.     {

  2530.       goto EXIT;

  2531.     }

  2532.     assert( matrix[i] != NULL );

  2533.   }

  2534. 

  2535.   for (i = 0; i < n; i++)

  2536.   {

  2537.     for (j = 0; j < n; j++)

  2538.     {

  2539.       VariantType variant;

  2540.       CLEAR_VARIANT (&variant);

  2541.       v->VINDEX[0] = v->LBOUND[0] + i;

  2542.       v->VINDEX[1] = v->LBOUND[1] + j;

  2543.       if (var_get (v, &variant) == FALSE)

  2544.       {

  2545.         WARN_VARIABLE_NOT_DECLARED;

  2546.         goto EXIT;

  2547.       }

  2548.       if (variant.VariantTypeCode == StringTypeCode)

  2549.       {

  2550.         WARN_TYPE_MISMATCH;

  2551.         goto EXIT;

  2552.       }

  2553.       matrix[i][j] = variant.Number;

  2554.     }

  2555.   }

  2556. 

  2557.   /* Conversion of matrix to upper triangular */

  2558. 

  2559.   for (i = 0; i < n; i++)

  2560.   {

  2561.     for (j = 0; j < n; j++)

  2562.     {

  2563.       if (j > i)

  2564.       {

  2565.         if (matrix[i][i] == 0)

  2566.         {

  2567.           /* - Evaluation of an expression results in division

  2568.            * by zero (nonfatal, the recommended recovery

  2569.            * procedure is to supply machine infinity with the

  2570.            * sign of the numerator and continue) 

  2571.            */

  2572.           if (WARN_DIVISION_BY_ZERO)

  2573.           {

  2574.             /* ERROR */

  2575.             goto EXIT;

  2576.           }

  2577.           /* CONTINUE */

  2578.           if (matrix[j][i] < 0)

  2579.           {

  2580.             ratio = MINDBL;

  2581.           }

  2582.           else

  2583.           {

  2584.             ratio = MAXDBL;

  2585.           }

  2586.         }

  2587.         else

  2588.         {

  2589.           ratio = matrix[j][i] / matrix[i][i];

  2590.         }

  2591.         for (k = 0; k < n; k++)

  2592.         {

  2593.           matrix[j][k] -= ratio * matrix[i][k];

  2594.         }

  2595.       }

  2596.     }

  2597.   }

  2598. 

  2599. 

  2600.   My->LastDeterminant = 1;        /* storage for determinant */

  2601. 

  2602.   for (i = 0; i < n; i++)

  2603.   {

  2604.     DoubleType Value;

  2605. 

  2606.     Value = matrix[i][i];

  2607.     My->LastDeterminant *= Value;

  2608.   }

  2609. 

  2610. EXIT:

  2611.   if( matrix != NULL )

  2612.   {

  2613.     for (i = 0; i < n; i++)

  2614.     {

  2615.       if( matrix[i] != NULL )

  2616.       {

  2617.         free (matrix[i]);

  2618.         /* matrix[i] = NULL; */

  2619.       }

  2620.     }

  2621.     free (matrix);

  2622.     /* matrix = NULL; */

  2623.   }

  2624. }

  2625. 

  2626. int

  2627. InvertMatrix (VariableType * vOut, VariableType * vIn)

  2628. {

  2629.   /* http://easy-learn-c-language.blogspot.com/search/label/Numerical%20Methods */

  2630.   /* Numerical Methods: Inverse of nxn matrix using C */

  2631. 

  2632.   int Result;

  2633.   DoubleType **matrix;

  2634.   DoubleType ratio;

  2635. 

  2636.   int i;

  2637.   int j;

  2638.   int k;

  2639.   int n;

  2640.    

  2641.   assert (vOut != NULL);

  2642.   assert (vIn != NULL);

  2643. 

  2644.   Result = FALSE;

  2645.   n = vIn->UBOUND[0] - vIn->LBOUND[0] + 1;

  2646. 

  2647.   if ((matrix = (DoubleType **) calloc (n, sizeof (DoubleType *))) == NULL)

  2648.   {

  2649.         goto EXIT;

  2650.   }

  2651.   assert( matrix != NULL );

  2652. 

  2653.   for (i = 0; i < n; i++)

  2654.   {

  2655.     if ((matrix[i] =

  2656.          (DoubleType *) calloc (n + n, sizeof (DoubleType))) == NULL)

  2657.     {

  2658.         goto EXIT;

  2659.     }

  2660.     assert( matrix[i] != NULL );

  2661.   }

  2662. 

  2663.   for (i = 0; i < n; i++)

  2664.   {

  2665.     for (j = 0; j < n; j++)

  2666.     {

  2667.       VariantType variant;

  2668.       CLEAR_VARIANT (&variant);

  2669. 

  2670.       vIn->VINDEX[0] = vIn->LBOUND[0] + i;

  2671.       vIn->VINDEX[1] = vIn->LBOUND[1] + j;

  2672.       if (var_get (vIn, &variant) == FALSE)

  2673.       {

  2674.         WARN_VARIABLE_NOT_DECLARED;

  2675.         goto EXIT;

  2676.       }

  2677.       if (variant.VariantTypeCode == StringTypeCode)

  2678.       {

  2679.         WARN_TYPE_MISMATCH;

  2680.         goto EXIT;

  2681.       }

  2682.       matrix[i][j] = variant.Number;

  2683.     }

  2684.   }

  2685. 

  2686.   for (i = 0; i < n; i++)

  2687.   {

  2688.     for (j = n; j < 2 * n; j++)

  2689.     {

  2690.       if (i == (j - n))

  2691.       {

  2692.         matrix[i][j] = 1.0;

  2693.       }

  2694.       else

  2695.       {

  2696.         matrix[i][j] = 0.0;

  2697.       }

  2698.     }

  2699.   }

  2700. 

  2701.   for (i = 0; i < n; i++)

  2702.   {

  2703.     for (j = 0; j < n; j++)

  2704.     {

  2705.       if (i != j)

  2706.       {

  2707.         if (matrix[i][i] == 0)

  2708.         {

  2709.           /* - Evaluation of an expression results in division

  2710.            * by zero (nonfatal, the recommended recovery

  2711.            * procedure is to supply machine infinity with the

  2712.            * sign of the numerator and continue) 

  2713.            */

  2714.           if (WARN_DIVISION_BY_ZERO)

  2715.           {

  2716.             /* ERROR */

  2717.             goto EXIT;

  2718.           }

  2719.           /* CONTINUE */

  2720.           if (matrix[j][i] < 0)

  2721.           {

  2722.             ratio = MINDBL;

  2723.           }

  2724.           else

  2725.           {

  2726.             ratio = MAXDBL;

  2727.           }

  2728.         }

  2729.         else

  2730.         {

  2731.           ratio = matrix[j][i] / matrix[i][i];

  2732.         }

  2733.         for (k = 0; k < 2 * n; k++)

  2734.         {

  2735.           matrix[j][k] -= ratio * matrix[i][k];

  2736.         }

  2737.       }

  2738.     }

  2739.   }

  2740. 

  2741.   for (i = 0; i < n; i++)

  2742.   {

  2743.     DoubleType a;

  2744. 

  2745.     a = matrix[i][i];

  2746.     if (a == 0)

  2747.     {

  2748.       /* - Evaluation of an expression results in division

  2749.        * by zero (nonfatal, the recommended recovery

  2750.        * procedure is to supply machine infinity with the

  2751.        * sign of the numerator and continue) 

  2752.        */

  2753.       if (WARN_DIVISION_BY_ZERO)

  2754.       {

  2755.         /* ERROR */

  2756.         goto EXIT;

  2757.       }

  2758.       /* CONTINUE */

  2759.       for (j = 0; j < 2 * n; j++)

  2760.       {

  2761.         if (matrix[i][j] < 0)

  2762.         {

  2763.           matrix[i][j] = MINDBL;

  2764.         }

  2765.         else

  2766.         {

  2767.           matrix[i][j] = MAXDBL;

  2768.         }

  2769.       }

  2770.     }

  2771.     else

  2772.     {

  2773.       for (j = 0; j < 2 * n; j++)

  2774.       {

  2775.         matrix[i][j] /= a;

  2776.       }

  2777.     }

  2778.   }

  2779. 

  2780.   for (i = 0; i < n; i++)

  2781.   {

  2782.     for (j = 0; j < n; j++)

  2783.     {

  2784.       VariantType variant;

  2785.       CLEAR_VARIANT (&variant);

  2786. 

  2787.       vOut->VINDEX[0] = vOut->LBOUND[0] + i;

  2788.       vOut->VINDEX[1] = vOut->LBOUND[0] + j;

  2789.       variant.VariantTypeCode = vOut->VariableTypeCode;

  2790.       variant.Number = matrix[i][j + n];

  2791.       if (var_set (vOut, &variant) == FALSE)

  2792.       {

  2793.         WARN_VARIABLE_NOT_DECLARED;

  2794.         goto EXIT;

  2795.       }

  2796.     }

  2797.   }

  2798.   /*

  2799.   ** 

  2800.   ** Everything is OK

  2801.   **

  2802.   */

  2803.   Result = TRUE;

  2804.   

  2805.   

  2806. EXIT:

  2807.   if (matrix != NULL)

  2808.   {

  2809.     for (i = 0; i < n; i++)

  2810.     {

  2811.       if (matrix[i] != NULL)

  2812.       {

  2813.         free (matrix[i]);

  2814.         /* matrix[i] = NULL; */

  2815.       }

  2816.     }

  2817.     free (matrix);

  2818.     /* matrix = NULL; */

  2819.   }

  2820.   return Result;

  2821. }

  2822. 

  2823. static int

  2824. line_read_matrix_redim (LineType * l, VariableType * v)

  2825. {

  2826.   /* get OPTIONAL parameters if the variable is dimensioned */

  2827.    

  2828.   assert (l != NULL);

  2829.   assert (v != NULL);

  2830. 

  2831.   if (line_peek_LparenChar (l))

  2832.   {

  2833.     /* get requested size, which is <= original array size */

  2834.     size_t array_units;

  2835.     int n;

  2836.     int dimensions;

  2837.     int LBOUND[MAX_DIMS];

  2838.     int UBOUND[MAX_DIMS];

  2839. 

  2840.     if (line_read_array_redim (l, &dimensions, LBOUND, UBOUND) == FALSE)

  2841.     {

  2842.       WARN_SYNTAX_ERROR;

  2843.       return FALSE;

  2844.     }

  2845.     /* update array dimensions */

  2846.     array_units = 1;

  2847.     for (n = 0; n < dimensions; n++)

  2848.     {

  2849.       if (UBOUND[n] < LBOUND[n])

  2850.       {

  2851.         WARN_SUBSCRIPT_OUT_OF_RANGE;

  2852.         return FALSE;

  2853.       }

  2854.       array_units *= UBOUND[n] - LBOUND[n] + 1;

  2855.     }

  2856.     if (array_units > v->array_units)

  2857.     {

  2858.       WARN_SUBSCRIPT_OUT_OF_RANGE;

  2859.       return FALSE;

  2860.     }

  2861.     v->dimensions = dimensions;

  2862.     for (n = 0; n < dimensions; n++)

  2863.     {

  2864.       v->LBOUND[n] = LBOUND[n];

  2865.       v->UBOUND[n] = UBOUND[n];

  2866.     }

  2867.   }

  2868.   return TRUE;

  2869. }

  2870. 

  2871. LineType *

  2872. bwb_MAT (LineType * l)

  2873. {

  2874.   /*

  2875.      SYNTAX:     MAT A = CON

  2876.      SYNTAX:     MAT A = IDN

  2877.      SYNTAX:     MAT A = ZER

  2878.      SYNTAX:     MAT A = INV B

  2879.      SYNTAX:     MAT A = TRN B

  2880.      SYNTAX:     MAT A = (k) * B

  2881.      SYNTAX:     MAT A = B

  2882.      SYNTAX:     MAT A = B + C

  2883.      SYNTAX:     MAT A = B - C

  2884.      SYNTAX:     MAT A = B * C

  2885.    */

  2886.   VariableType *v_A;

  2887.   char varname_A[NameLengthMax + 1];

  2888.    

  2889.   assert (l != NULL);

  2890. 

  2891.   /* just a placeholder for now. this will grow. */

  2892. 

  2893.   if (line_read_varname (l, varname_A) == FALSE)

  2894.   {

  2895.     WARN_SYNTAX_ERROR;

  2896.     return (l);

  2897.   }

  2898.   v_A = mat_find (varname_A);

  2899.   if (v_A == NULL)

  2900.   {

  2901.     WARN_VARIABLE_NOT_DECLARED;

  2902.     return (l);

  2903.   }

  2904.   /* variable MUST be numeric */

  2905.   if (VAR_IS_STRING (v_A))

  2906.   {

  2907.     WARN_SYNTAX_ERROR;

  2908.     return (l);

  2909.   }

  2910.   if (line_read_matrix_redim (l, v_A) == FALSE)

  2911.   {

  2912.     WARN_SYNTAX_ERROR;

  2913.     return (l);

  2914.   }

  2915.   if (line_skip_EqualChar (l) == FALSE)

  2916.   {

  2917.     WARN_SYNTAX_ERROR;

  2918.     return (l);

  2919.   }

  2920.   /* MAT A = ... */

  2921.   if (line_skip_word (l, "CON"))

  2922.   {

  2923.     /* MAT A = CON */

  2924.     /* MAT A = CON(I) */

  2925.     /* MAT A = CON(I,J) */

  2926.     /* MAT A = CON(I,J,K) */

  2927.     /* OK */

  2928.     int i;

  2929.     int j;

  2930.     int k;

  2931. 

  2932.     if (line_read_matrix_redim (l, v_A) == FALSE)

  2933.     {

  2934.       WARN_SYNTAX_ERROR;

  2935.       return (l);

  2936.     }

  2937. 

  2938.     /* both arrays are of the same size */

  2939.     switch (v_A->dimensions)

  2940.     {

  2941.     case 1:

  2942.       for (i = v_A->LBOUND[0]; i <= v_A->UBOUND[0]; i++)

  2943.       {

  2944.         VariantType variant;

  2945.         CLEAR_VARIANT (&variant);

  2946. 

  2947.         variant.VariantTypeCode = v_A->VariableTypeCode;

  2948.         variant.Number = 1;

  2949.         v_A->VINDEX[0] = i;

  2950.         if (var_set (v_A, &variant) == FALSE)

  2951.         {

  2952.           WARN_VARIABLE_NOT_DECLARED;

  2953.           return (l);

  2954.         }

  2955.       }

  2956.       break;

  2957.     case 2:

  2958.       for (i = v_A->LBOUND[0]; i <= v_A->UBOUND[0]; i++)

  2959.       {

  2960.         for (j = v_A->LBOUND[1]; j <= v_A->UBOUND[1]; j++)

  2961.         {

  2962.           VariantType variant;

  2963.           CLEAR_VARIANT (&variant);

  2964. 

  2965.           variant.VariantTypeCode = v_A->VariableTypeCode;

  2966.           variant.Number = 1;

  2967.           v_A->VINDEX[0] = i;

  2968.           v_A->VINDEX[1] = j;

  2969.           if (var_set (v_A, &variant) == FALSE)

  2970.           {

  2971.             WARN_VARIABLE_NOT_DECLARED;

  2972.             return (l);

  2973.           }

  2974.         }

  2975.       }

  2976.       break;

  2977.     case 3:

  2978.       for (i = v_A->LBOUND[0]; i <= v_A->UBOUND[0]; i++)

  2979.       {

  2980.         for (j = v_A->LBOUND[1]; j <= v_A->UBOUND[1]; j++)

  2981.         {

  2982.           for (k = v_A->LBOUND[2]; k <= v_A->UBOUND[2]; k++)

  2983.           {

  2984.             VariantType variant;

  2985.             CLEAR_VARIANT (&variant);

  2986. 

  2987.             variant.VariantTypeCode = v_A->VariableTypeCode;

  2988.             variant.Number = 1;

  2989.             v_A->VINDEX[0] = i;

  2990.             v_A->VINDEX[1] = j;

  2991.             v_A->VINDEX[2] = k;

  2992.             if (var_set (v_A, &variant) == FALSE)

  2993.             {

  2994.               WARN_VARIABLE_NOT_DECLARED;

  2995.               return (l);

  2996.             }

  2997.           }

  2998.         }

  2999.       }

  3000.       break;

  3001.     default:

  3002.       WARN_SYNTAX_ERROR;

  3003.       return (l);

  3004.     }

  3005.   }

  3006.   else if (line_skip_word (l, "IDN"))

  3007.   {

  3008.     /* MAT A = IDN */

  3009.     /* MAT A = IDN(I,J) */

  3010.     /* OK */

  3011.     int i;

  3012.     int j;

  3013. 

  3014.     if (line_read_matrix_redim (l, v_A) == FALSE)

  3015.     {

  3016.       WARN_SYNTAX_ERROR;

  3017.       return (l);

  3018.     }

  3019. 

  3020.     if (v_A->dimensions != 2)

  3021.     {

  3022.       WARN_SUBSCRIPT_OUT_OF_RANGE;

  3023.       return (l);

  3024.     }

  3025.     if (v_A->LBOUND[0] != v_A->LBOUND[1])

  3026.     {

  3027.       WARN_SUBSCRIPT_OUT_OF_RANGE;

  3028.       return (l);

  3029.     }

  3030.     if (v_A->UBOUND[0] != v_A->UBOUND[1])

  3031.     {

  3032.       WARN_SUBSCRIPT_OUT_OF_RANGE;

  3033.       return (l);

  3034.     }

  3035.     /* square matrix */

  3036.     for (i = v_A->LBOUND[0]; i <= v_A->UBOUND[0]; i++)

  3037.     {

  3038.       for (j = v_A->LBOUND[1]; j <= v_A->UBOUND[1]; j++)

  3039.       {

  3040.         VariantType variant;

  3041.         CLEAR_VARIANT (&variant);

  3042. 

  3043.         variant.VariantTypeCode = v_A->VariableTypeCode;

  3044.         if (i == j)

  3045.         {

  3046.           variant.Number = 1;

  3047.         }

  3048.         else

  3049.         {

  3050.           variant.Number = 0;

  3051.         }

  3052.         v_A->VINDEX[0] = i;

  3053.         v_A->VINDEX[1] = j;

  3054.         if (var_set (v_A, &variant) == FALSE)

  3055.         {

  3056.           WARN_VARIABLE_NOT_DECLARED;

  3057.           return (l);

  3058.         }

  3059.       }

  3060.     }

  3061.   }

  3062.   else if (line_skip_word (l, "ZER"))

  3063.   {

  3064.     /* MAT A = ZER */

  3065.     /* MAT A = ZER(I) */

  3066.     /* MAT A = ZER(I,J) */

  3067.     /* MAT A = ZER(I,J,K) */

  3068.     /* OK */

  3069.     int i;

  3070.     int j;

  3071.     int k;

  3072. 

  3073.     if (line_read_matrix_redim (l, v_A) == FALSE)

  3074.     {

  3075.       WARN_SYNTAX_ERROR;

  3076.       return (l);

  3077.     }

  3078.     /* both arrays are of the same size */

  3079.     switch (v_A->dimensions)

  3080.     {

  3081.     case 1:

  3082.       for (i = v_A->LBOUND[0]; i <= v_A->UBOUND[0]; i++)

  3083.       {

  3084.         VariantType variant;

  3085.         CLEAR_VARIANT (&variant);

  3086. 

  3087.         variant.VariantTypeCode = v_A->VariableTypeCode;

  3088.         variant.Number = 0;

  3089.         v_A->VINDEX[0] = i;

  3090.         if (var_set (v_A, &variant) == FALSE)

  3091.         {

  3092.           WARN_VARIABLE_NOT_DECLARED;

  3093.           return (l);

  3094.         }

  3095.       }

  3096.       break;

  3097.     case 2:

  3098.       for (i = v_A->LBOUND[0]; i <= v_A->UBOUND[0]; i++)

  3099.       {

  3100.         for (j = v_A->LBOUND[1]; j <= v_A->UBOUND[1]; j++)

  3101.         {

  3102.           VariantType variant;

  3103.           CLEAR_VARIANT (&variant);

  3104. 

  3105.           variant.VariantTypeCode = v_A->VariableTypeCode;

  3106.           variant.Number = 0;

  3107.           v_A->VINDEX[0] = i;

  3108.           v_A->VINDEX[1] = j;

  3109.           if (var_set (v_A, &variant) == FALSE)

  3110.           {

  3111.             WARN_VARIABLE_NOT_DECLARED;

  3112.             return (l);

  3113.           }

  3114.         }

  3115.       }

  3116.       break;

  3117.     case 3:

  3118.       for (i = v_A->LBOUND[0]; i <= v_A->UBOUND[0]; i++)

  3119.       {

  3120.         for (j = v_A->LBOUND[1]; j <= v_A->UBOUND[1]; j++)

  3121.         {

  3122.           for (k = v_A->LBOUND[2]; k <= v_A->UBOUND[2]; k++)

  3123.           {

  3124.             VariantType variant;

  3125.             CLEAR_VARIANT (&variant);

  3126. 

  3127.             variant.VariantTypeCode = v_A->VariableTypeCode;

  3128.             variant.Number = 0;

  3129.             v_A->VINDEX[0] = i;

  3130.             v_A->VINDEX[1] = j;

  3131.             v_A->VINDEX[2] = k;

  3132.             if (var_set (v_A, &variant) == FALSE)

  3133.             {

  3134.               WARN_VARIABLE_NOT_DECLARED;

  3135.               return (l);

  3136.             }

  3137.           }

  3138.         }

  3139.       }

  3140.       break;

  3141.     default:

  3142.       WARN_SYNTAX_ERROR;

  3143.       return (l);

  3144.     }

  3145.   }

  3146.   else if (line_skip_word (l, "INV"))

  3147.   {

  3148.     /* MAT A = INV B */

  3149.     /* MAT A = INV( B ) */

  3150.     /* OK */

  3151.     VariableType *v_B;

  3152.     char varname_B[NameLengthMax + 1];

  3153. 

  3154.     if (v_A->dimensions != 2)

  3155.     {

  3156.       WARN_SYNTAX_ERROR;

  3157.       return (l);

  3158.     }

  3159.     if (v_A->LBOUND[0] != v_A->LBOUND[1] || v_A->UBOUND[0] != v_A->UBOUND[1])

  3160.     {

  3161.       WARN_SUBSCRIPT_OUT_OF_RANGE;

  3162.       return (l);

  3163.     }

  3164.     if (line_skip_LparenChar (l))

  3165.     {

  3166.       /* optional */

  3167.     }

  3168.     if (line_read_varname (l, varname_B) == FALSE)

  3169.     {

  3170.       WARN_SYNTAX_ERROR;

  3171.       return (l);

  3172.     }

  3173. 

  3174.     if ((v_B = mat_find (varname_B)) == NULL)

  3175.     {

  3176.       WARN_VARIABLE_NOT_DECLARED;

  3177.       return (l);

  3178.     }

  3179.     /* variable MUST be numeric */

  3180.     if (VAR_IS_STRING (v_B))

  3181.     {

  3182.       WARN_SYNTAX_ERROR;

  3183.       return (l);

  3184.     }

  3185.     if (line_read_matrix_redim (l, v_B) == FALSE)

  3186.     {

  3187.       WARN_SYNTAX_ERROR;

  3188.       return (l);

  3189.     }

  3190.     if (line_skip_RparenChar (l))

  3191.     {

  3192.       /* optional */

  3193.     }

  3194.     if (v_B->dimensions != 2)

  3195.     {

  3196.       WARN_SYNTAX_ERROR;

  3197.       return (l);

  3198.     }

  3199.     if (v_B->LBOUND[0] != v_B->LBOUND[1] || v_B->UBOUND[0] != v_B->UBOUND[1])

  3200.     {

  3201.       WARN_SUBSCRIPT_OUT_OF_RANGE;

  3202.       return (l);

  3203.     }

  3204.     if (v_A->LBOUND[0] != v_B->LBOUND[0] || v_A->UBOUND[0] != v_B->UBOUND[0])

  3205.     {

  3206.       WARN_SUBSCRIPT_OUT_OF_RANGE;

  3207.       return (l);

  3208.     }

  3209.     /* square matrix */

  3210.     Determinant (v_B);

  3211.     if (My->LastDeterminant == 0)

  3212.     {

  3213.       WARN_ILLEGAL_FUNCTION_CALL;

  3214.       return (l);

  3215.     }

  3216.     if (InvertMatrix (v_A, v_B) == FALSE)

  3217.     {

  3218.       WARN_ILLEGAL_FUNCTION_CALL;

  3219.       return (l);

  3220.     }

  3221.   }

  3222.   else if (line_skip_word (l, "TRN"))

  3223.   {

  3224.     /* MAT A = TRN B */

  3225.     /* MAT A = TRN( B ) */

  3226.     /* OK */

  3227.     int i;

  3228.     int j;

  3229.     VariableType *v_B;

  3230.     char varname_B[NameLengthMax + 1];

  3231. 

  3232.     if (v_A->dimensions != 2)

  3233.     {

  3234.       WARN_SYNTAX_ERROR;

  3235.       return (l);

  3236.     }

  3237.     if (line_skip_LparenChar (l))

  3238.     {

  3239.       /* optional */

  3240.     }

  3241.     if (line_read_varname (l, varname_B) == FALSE)

  3242.     {

  3243.       WARN_SYNTAX_ERROR;

  3244.       return (l);

  3245.     }

  3246.     if ((v_B = mat_find (varname_B)) == NULL)

  3247.     {

  3248.       WARN_VARIABLE_NOT_DECLARED;

  3249.       return (l);

  3250.     }

  3251.     /* variable MUST be numeric */

  3252.     if (VAR_IS_STRING (v_B))

  3253.     {

  3254.       WARN_SYNTAX_ERROR;

  3255.       return (l);

  3256.     }

  3257.     if (line_read_matrix_redim (l, v_B) == FALSE)

  3258.     {

  3259.       WARN_SYNTAX_ERROR;

  3260.       return (l);

  3261.     }

  3262.     if (line_skip_RparenChar (l))

  3263.     {

  3264.       /* optional */

  3265.     }

  3266.     if (v_B->dimensions != 2)

  3267.     {

  3268.       WARN_SYNTAX_ERROR;

  3269.       return (l);

  3270.     }

  3271.     /* MxN */

  3272.     if (v_A->LBOUND[0] != v_B->LBOUND[1] || v_A->UBOUND[0] != v_B->UBOUND[1])

  3273.     {

  3274.       WARN_SYNTAX_ERROR;

  3275.       return (l);

  3276.     }

  3277.     if (v_A->LBOUND[1] != v_B->LBOUND[0] || v_A->UBOUND[1] != v_B->UBOUND[0])

  3278.     {

  3279.       WARN_SYNTAX_ERROR;

  3280.       return (l);

  3281.     }

  3282.     /* transpose matrix */

  3283.     for (i = v_A->LBOUND[0]; i <= v_A->UBOUND[0]; i++)

  3284.     {

  3285.       for (j = v_A->LBOUND[1]; j <= v_A->UBOUND[1]; j++)

  3286.       {

  3287.         VariantType variant;

  3288.         CLEAR_VARIANT (&variant);

  3289. 

  3290.         v_B->VINDEX[1] = i;

  3291.         v_B->VINDEX[0] = j;

  3292.         if (var_get (v_B, &variant) == FALSE)

  3293.         {

  3294.           WARN_VARIABLE_NOT_DECLARED;

  3295.           return (l);

  3296.         }

  3297.         v_A->VINDEX[0] = i;

  3298.         v_A->VINDEX[1] = j;

  3299.         if (var_set (v_A, &variant) == FALSE)

  3300.         {

  3301.           WARN_VARIABLE_NOT_DECLARED;

  3302.           return (l);

  3303.         }

  3304.       }

  3305.     }

  3306.   }

  3307.   else if (line_peek_LparenChar (l))

  3308.   {

  3309.     /* MAT A = (k) * B */

  3310.     DoubleType Multiplier;

  3311.     VariableType *v_B;

  3312.     int i;

  3313.     int j;

  3314.     int k;

  3315.     char *E;

  3316.     int p;

  3317.     char varname_B[NameLengthMax + 1];

  3318.     char *tbuf;

  3319. 

  3320.     tbuf = My->ConsoleInput;

  3321.     bwb_strcpy (tbuf, &(l->buffer[l->position]));

  3322.     E = bwb_strrchr (tbuf, '*');

  3323.     if (E == NULL)

  3324.     {

  3325.       WARN_SYNTAX_ERROR;

  3326.       return (l);

  3327.     }

  3328.     *E = NulChar;

  3329.     p = 0;

  3330.     if (buff_read_numeric_expression (tbuf, &p, &Multiplier) == FALSE)

  3331.     {

  3332.       WARN_SYNTAX_ERROR;

  3333.       return (l);

  3334.     }

  3335.     l->position += p;

  3336.     if (line_skip_StarChar (l) == FALSE)

  3337.     {

  3338.       WARN_SYNTAX_ERROR;

  3339.       return (l);

  3340.     }

  3341.     if (line_read_varname (l, varname_B) == FALSE)

  3342.     {

  3343.       WARN_SYNTAX_ERROR;

  3344.       return (l);

  3345.     }

  3346. 

  3347.     if ((v_B = mat_find (varname_B)) == NULL)

  3348.     {

  3349.       WARN_VARIABLE_NOT_DECLARED;

  3350.       return (l);

  3351.     }

  3352.     /* variable MUST be numeric */

  3353.     if (VAR_IS_STRING (v_B))

  3354.     {

  3355.       WARN_SYNTAX_ERROR;

  3356.       return (l);

  3357.     }

  3358.     if (line_read_matrix_redim (l, v_B) == FALSE)

  3359.     {

  3360.       WARN_SYNTAX_ERROR;

  3361.       return (l);

  3362.     }

  3363.     if (v_A->dimensions != v_B->dimensions)

  3364.     {

  3365.       WARN_SYNTAX_ERROR;

  3366.       return (l);

  3367.     }

  3368.     /* both arrays are of the same size */

  3369.     switch (v_A->dimensions)

  3370.     {

  3371.     case 1:

  3372.       for (i = v_A->LBOUND[0]; i <= v_A->UBOUND[0]; i++)

  3373.       {

  3374.         VariantType variant;

  3375.         CLEAR_VARIANT (&variant);

  3376. 

  3377.         v_B->VINDEX[0] = i;

  3378.         if (var_get (v_B, &variant) == FALSE)

  3379.         {

  3380.           WARN_VARIABLE_NOT_DECLARED;

  3381.           return (l);

  3382.         }

  3383. 

  3384.         variant.Number *= Multiplier;

  3385. 

  3386.         v_A->VINDEX[0] = i;

  3387.         if (var_set (v_A, &variant) == FALSE)

  3388.         {

  3389.           WARN_VARIABLE_NOT_DECLARED;

  3390.           return (l);

  3391.         }

  3392.       }

  3393.       break;

  3394.     case 2:

  3395.       for (i = v_A->LBOUND[0]; i <= v_A->UBOUND[0]; i++)

  3396.       {

  3397.         for (j = v_A->LBOUND[1]; j <= v_A->UBOUND[1]; j++)

  3398.         {

  3399.           VariantType variant;

  3400.           CLEAR_VARIANT (&variant);

  3401. 

  3402.           v_B->VINDEX[0] = i;

  3403.           v_B->VINDEX[1] = j;

  3404.           if (var_get (v_B, &variant) == FALSE)

  3405.           {

  3406.             WARN_VARIABLE_NOT_DECLARED;

  3407.             return (l);

  3408.           }

  3409. 

  3410.           variant.Number *= Multiplier;

  3411. 

  3412.           v_A->VINDEX[0] = i;

  3413.           v_A->VINDEX[1] = j;

  3414.           if (var_set (v_A, &variant) == FALSE)

  3415.           {

  3416.             WARN_VARIABLE_NOT_DECLARED;

  3417.             return (l);

  3418.           }

  3419.         }

  3420.       }

  3421.       break;

  3422.     case 3:

  3423.       for (i = v_A->LBOUND[0]; i <= v_A->UBOUND[0]; i++)

  3424.       {

  3425.         for (j = v_A->LBOUND[1]; j <= v_A->UBOUND[1]; j++)

  3426.         {

  3427.           for (k = v_A->LBOUND[2]; k <= v_A->UBOUND[2]; k++)

  3428.           {

  3429.             VariantType variant;

  3430.             CLEAR_VARIANT (&variant);

  3431. 

  3432.             v_B->VINDEX[0] = i;

  3433.             v_B->VINDEX[1] = j;

  3434.             v_B->VINDEX[2] = k;

  3435.             if (var_get (v_B, &variant) == FALSE)

  3436.             {

  3437.               WARN_VARIABLE_NOT_DECLARED;

  3438.               return (l);

  3439.             }

  3440. 

  3441.             variant.Number *= Multiplier;

  3442. 

  3443.             v_A->VINDEX[0] = i;

  3444.             v_A->VINDEX[1] = j;

  3445.             v_A->VINDEX[2] = k;

  3446.             if (var_set (v_A, &variant) == FALSE)

  3447.             {

  3448.               WARN_VARIABLE_NOT_DECLARED;

  3449.               return (l);

  3450.             }

  3451.           }

  3452.         }

  3453.       }

  3454.       break;

  3455.     default:

  3456.       WARN_SYNTAX_ERROR;

  3457.       return (l);

  3458.     }

  3459.   }

  3460.   else

  3461.   {

  3462.     /* MAT A = B */

  3463.     /* MAT A = B + C */

  3464.     /* MAT A = B - C */

  3465.     /* MAT A = B * C */

  3466.     VariableType *v_B;

  3467.     char varname_B[NameLengthMax + 1];

  3468. 

  3469.     if (line_read_varname (l, varname_B) == FALSE)

  3470.     {

  3471.       WARN_SYNTAX_ERROR;

  3472.       return (l);

  3473.     }

  3474. 

  3475.     if ((v_B = mat_find (varname_B)) == NULL)

  3476.     {

  3477.       WARN_VARIABLE_NOT_DECLARED;

  3478.       return (l);

  3479.     }

  3480.     /* variable MUST be numeric */

  3481.     if (VAR_IS_STRING (v_B))

  3482.     {

  3483.       WARN_SYNTAX_ERROR;

  3484.       return (l);

  3485.     }

  3486.     if (line_read_matrix_redim (l, v_B) == FALSE)

  3487.     {

  3488.       WARN_SYNTAX_ERROR;

  3489.       return (l);

  3490.     }

  3491.     if (line_is_eol (l))

  3492.     {

  3493.       /* MAT A = B */

  3494.       /* OK */

  3495.       int i;

  3496.       int j;

  3497.       int k;

  3498. 

  3499.       if (v_A->dimensions != v_B->dimensions)

  3500.       {

  3501.         WARN_SYNTAX_ERROR;

  3502.         return (l);

  3503.       }

  3504.       /* both arrays are of the same size */

  3505.       switch (v_A->dimensions)

  3506.       {

  3507.       case 1:

  3508.         for (i = v_A->LBOUND[0]; i <= v_A->UBOUND[0]; i++)

  3509.         {

  3510.           VariantType variant;

  3511.           CLEAR_VARIANT (&variant);

  3512. 

  3513.           v_B->VINDEX[0] = i;

  3514.           if (var_get (v_B, &variant) == FALSE)

  3515.           {

  3516.             WARN_VARIABLE_NOT_DECLARED;

  3517.             return (l);

  3518.           }

  3519. 

  3520.           v_A->VINDEX[0] = i;

  3521.           if (var_set (v_A, &variant) == FALSE)

  3522.           {

  3523.             WARN_VARIABLE_NOT_DECLARED;

  3524.             return (l);

  3525.           }

  3526.         }

  3527.         break;

  3528.       case 2:

  3529.         for (i = v_A->LBOUND[0]; i <= v_A->UBOUND[0]; i++)

  3530.         {

  3531.           for (j = v_A->LBOUND[1]; j <= v_A->UBOUND[1]; j++)

  3532.           {

  3533.             VariantType variant;

  3534.             CLEAR_VARIANT (&variant);

  3535. 

  3536.             v_B->VINDEX[0] = i;

  3537.             v_B->VINDEX[1] = j;

  3538.             if (var_get (v_B, &variant) == FALSE)

  3539.             {

  3540.               WARN_VARIABLE_NOT_DECLARED;

  3541.               return (l);

  3542.             }

  3543. 

  3544.             v_A->VINDEX[0] = i;

  3545.             v_A->VINDEX[1] = j;

  3546.             if (var_set (v_A, &variant) == FALSE)

  3547.             {

  3548.               WARN_VARIABLE_NOT_DECLARED;

  3549.               return (l);

  3550.             }

  3551.           }

  3552.         }

  3553.         break;

  3554.       case 3:

  3555.         for (i = v_A->LBOUND[0]; i <= v_A->UBOUND[0]; i++)

  3556.         {

  3557.           for (j = v_A->LBOUND[1]; j <= v_A->UBOUND[1]; j++)

  3558.           {

  3559.             for (k = v_A->LBOUND[2]; k <= v_A->UBOUND[2]; k++)

  3560.             {

  3561.               VariantType variant;

  3562.               CLEAR_VARIANT (&variant);

  3563. 

  3564.               v_B->VINDEX[0] = i;

  3565.               v_B->VINDEX[1] = j;

  3566.               v_B->VINDEX[2] = k;

  3567.               if (var_get (v_B, &variant) == FALSE)

  3568.               {

  3569.                 WARN_VARIABLE_NOT_DECLARED;

  3570.                 return (l);

  3571.               }

  3572. 

  3573.               v_A->VINDEX[0] = i;

  3574.               v_A->VINDEX[1] = j;

  3575.               v_A->VINDEX[2] = k;

  3576.               if (var_set (v_A, &variant) == FALSE)

  3577.               {

  3578.                 WARN_VARIABLE_NOT_DECLARED;

  3579.                 return (l);

  3580.               }

  3581.             }

  3582.           }

  3583.         }

  3584.         break;

  3585.       default:

  3586.         WARN_SYNTAX_ERROR;

  3587.         return (l);

  3588.       }

  3589.     }

  3590.     else if (line_skip_PlusChar (l))

  3591.     {

  3592.       /* MAT A = B + C */

  3593.       /* OK */

  3594.       int i;

  3595.       int j;

  3596.       int k;

  3597.       VariableType *v_C;

  3598.       char varname_C[NameLengthMax + 1];

  3599. 

  3600.       if (v_A->dimensions != v_B->dimensions)

  3601.       {

  3602.         WARN_SYNTAX_ERROR;

  3603.         return (l);

  3604.       }

  3605.       /* both arrays are of the same size */

  3606. 

  3607.       if (line_read_varname (l, varname_C) == FALSE)

  3608.       {

  3609.         WARN_SYNTAX_ERROR;

  3610.         return (l);

  3611.       }

  3612. 

  3613.       if ((v_C = mat_find (varname_C)) == NULL)

  3614.       {

  3615.         WARN_VARIABLE_NOT_DECLARED;

  3616.         return (l);

  3617.       }

  3618.       /* variable MUST be numeric */

  3619.       if (VAR_IS_STRING (v_C))

  3620.       {

  3621.         WARN_SYNTAX_ERROR;

  3622.         return (l);

  3623.       }

  3624.       if (line_read_matrix_redim (l, v_C) == FALSE)

  3625.       {

  3626.         WARN_SYNTAX_ERROR;

  3627.         return (l);

  3628.       }

  3629.       if (v_B->dimensions != v_C->dimensions)

  3630.       {

  3631.         WARN_SYNTAX_ERROR;

  3632.         return (l);

  3633.       }

  3634.       /* both arrays are of the same size */

  3635.       switch (v_A->dimensions)

  3636.       {

  3637.       case 1:

  3638.         for (i = v_A->LBOUND[0]; i <= v_A->UBOUND[0]; i++)

  3639.         {

  3640.           VariantType variant_L;

  3641.           VariantType variant_R;

  3642.           CLEAR_VARIANT (&variant_L);

  3643.           CLEAR_VARIANT (&variant_R);

  3644. 

  3645.           v_B->VINDEX[0] = i;

  3646.           if (var_get (v_B, &variant_L) == FALSE)

  3647.           {

  3648.             WARN_VARIABLE_NOT_DECLARED;

  3649.             return (l);

  3650.           }

  3651. 

  3652.           v_C->VINDEX[0] = i;

  3653.           if (var_get (v_C, &variant_R) == FALSE)

  3654.           {

  3655.             WARN_VARIABLE_NOT_DECLARED;

  3656.             return (l);

  3657.           }

  3658. 

  3659.           variant_L.Number += variant_R.Number;

  3660. 

  3661.           v_A->VINDEX[0] = i;

  3662.           if (var_set (v_A, &variant_L) == FALSE)

  3663.           {

  3664.             WARN_VARIABLE_NOT_DECLARED;

  3665.             return (l);

  3666.           }

  3667.         }

  3668.         break;

  3669.       case 2:

  3670.         for (i = v_A->LBOUND[0]; i <= v_A->UBOUND[0]; i++)

  3671.         {

  3672.           for (j = v_A->LBOUND[1]; j <= v_A->UBOUND[1]; j++)

  3673.           {

  3674.             VariantType variant_L;

  3675.             VariantType variant_R;

  3676.             CLEAR_VARIANT (&variant_L);

  3677.             CLEAR_VARIANT (&variant_R);

  3678. 

  3679.             v_B->VINDEX[0] = i;

  3680.             v_B->VINDEX[1] = j;

  3681.             if (var_get (v_B, &variant_L) == FALSE)

  3682.             {

  3683.               WARN_VARIABLE_NOT_DECLARED;

  3684.               return (l);

  3685.             }

  3686. 

  3687.             v_C->VINDEX[0] = i;

  3688.             v_C->VINDEX[1] = j;

  3689.             if (var_get (v_C, &variant_R) == FALSE)

  3690.             {

  3691.               WARN_VARIABLE_NOT_DECLARED;

  3692.               return (l);

  3693.             }

  3694. 

  3695.             variant_L.Number += variant_R.Number;

  3696. 

  3697.             v_A->VINDEX[0] = i;

  3698.             v_A->VINDEX[1] = j;

  3699.             if (var_set (v_A, &variant_L) == FALSE)

  3700.             {

  3701.               WARN_VARIABLE_NOT_DECLARED;

  3702.               return (l);

  3703.             }

  3704.           }

  3705.         }

  3706.         break;

  3707.       case 3:

  3708.         for (i = v_A->LBOUND[0]; i <= v_A->UBOUND[0]; i++)

  3709.         {

  3710.           for (j = v_A->LBOUND[1]; j <= v_A->UBOUND[1]; j++)

  3711.           {

  3712.             for (k = v_A->LBOUND[2]; k <= v_A->UBOUND[2]; k++)

  3713.             {

  3714.               VariantType variant_L;

  3715.               VariantType variant_R;

  3716.               CLEAR_VARIANT (&variant_L);

  3717.               CLEAR_VARIANT (&variant_R);

  3718. 

  3719.               v_B->VINDEX[0] = i;

  3720.               v_B->VINDEX[1] = j;

  3721.               v_B->VINDEX[2] = k;

  3722.               if (var_get (v_B, &variant_L) == FALSE)

  3723.               {

  3724.                 WARN_VARIABLE_NOT_DECLARED;

  3725.                 return (l);

  3726.               }

  3727. 

  3728.               v_C->VINDEX[0] = i;

  3729.               v_C->VINDEX[1] = j;

  3730.               v_C->VINDEX[2] = k;

  3731.               if (var_get (v_C, &variant_R) == FALSE)

  3732.               {

  3733.                 WARN_VARIABLE_NOT_DECLARED;

  3734.                 return (l);

  3735.               }

  3736. 

  3737.               variant_L.Number += variant_R.Number;

  3738. 

  3739.               v_A->VINDEX[0] = i;

  3740.               v_A->VINDEX[1] = j;

  3741.               v_A->VINDEX[2] = k;

  3742.               if (var_set (v_A, &variant_L) == FALSE)

  3743.               {

  3744.                 WARN_VARIABLE_NOT_DECLARED;

  3745.                 return (l);

  3746.               }

  3747.             }

  3748.           }

  3749.         }

  3750.         break;

  3751.       default:

  3752.         WARN_SYNTAX_ERROR;

  3753.         return (l);

  3754.       }

  3755.     }

  3756.     else if (line_skip_MinusChar (l))

  3757.     {

  3758.       /* MAT A = B - C */

  3759.       /* OK */

  3760.       int i;

  3761.       int j;

  3762.       int k;

  3763.       VariableType *v_C;

  3764.       char varname_C[NameLengthMax + 1];

  3765. 

  3766.       if (v_A->dimensions != v_B->dimensions)

  3767.       {

  3768.         WARN_SYNTAX_ERROR;

  3769.         return (l);

  3770.       }

  3771.       /* both arrays are of the same size */

  3772. 

  3773.       if (line_read_varname (l, varname_C) == FALSE)

  3774.       {

  3775.         WARN_SYNTAX_ERROR;

  3776.         return (l);

  3777.       }

  3778. 

  3779.       if ((v_C = mat_find (varname_C)) == NULL)

  3780.       {

  3781.         WARN_VARIABLE_NOT_DECLARED;

  3782.         return (l);

  3783.       }

  3784.       /* variable MUST be numeric */

  3785.       if (VAR_IS_STRING (v_C))

  3786.       {

  3787.         WARN_SYNTAX_ERROR;

  3788.         return (l);

  3789.       }

  3790.       if (line_read_matrix_redim (l, v_C) == FALSE)

  3791.       {

  3792.         WARN_SYNTAX_ERROR;

  3793.         return (l);

  3794.       }

  3795.       if (v_B->dimensions != v_C->dimensions)

  3796.       {

  3797.         WARN_SYNTAX_ERROR;

  3798.         return (l);

  3799.       }

  3800.       /* both arrays are of the same dimension */

  3801.       switch (v_A->dimensions)

  3802.       {

  3803.       case 1:

  3804.         for (i = v_A->LBOUND[0]; i <= v_A->UBOUND[0]; i++)

  3805.         {

  3806.           VariantType variant_L;

  3807.           VariantType variant_R;

  3808.           CLEAR_VARIANT (&variant_L);

  3809.           CLEAR_VARIANT (&variant_R);

  3810. 

  3811.           v_B->VINDEX[0] = i;

  3812.           if (var_get (v_B, &variant_L) == FALSE)

  3813.           {

  3814.             WARN_VARIABLE_NOT_DECLARED;

  3815.             return (l);

  3816.           }

  3817. 

  3818.           v_C->VINDEX[0] = i;

  3819.           if (var_get (v_C, &variant_R) == FALSE)

  3820.           {

  3821.             WARN_VARIABLE_NOT_DECLARED;

  3822.             return (l);

  3823.           }

  3824. 

  3825.           variant_L.Number -= variant_R.Number;

  3826. 

  3827.           v_A->VINDEX[0] = i;

  3828.           if (var_set (v_A, &variant_L) == FALSE)

  3829.           {

  3830.             WARN_VARIABLE_NOT_DECLARED;

  3831.             return (l);

  3832.           }

  3833.         }

  3834.         break;

  3835.       case 2:

  3836.         for (i = v_A->LBOUND[0]; i <= v_A->UBOUND[0]; i++)

  3837.         {

  3838.           for (j = v_A->LBOUND[1]; j <= v_A->UBOUND[1]; j++)

  3839.           {

  3840.             VariantType variant_L;

  3841.             VariantType variant_R;

  3842.             CLEAR_VARIANT (&variant_L);

  3843.             CLEAR_VARIANT (&variant_R);

  3844. 

  3845.             v_B->VINDEX[0] = i;

  3846.             v_B->VINDEX[1] = j;

  3847.             if (var_get (v_B, &variant_L) == FALSE)

  3848.             {

  3849.               WARN_VARIABLE_NOT_DECLARED;

  3850.               return (l);

  3851.             }

  3852. 

  3853.             v_C->VINDEX[0] = i;

  3854.             v_C->VINDEX[1] = j;

  3855.             if (var_get (v_C, &variant_R) == FALSE)

  3856.             {

  3857.               WARN_VARIABLE_NOT_DECLARED;

  3858.               return (l);

  3859.             }

  3860. 

  3861.             variant_L.Number -= variant_R.Number;

  3862. 

  3863.             v_A->VINDEX[0] = i;

  3864.             v_A->VINDEX[1] = j;

  3865.             if (var_set (v_A, &variant_L) == FALSE)

  3866.             {

  3867.               WARN_VARIABLE_NOT_DECLARED;

  3868.               return (l);

  3869.             }

  3870.           }

  3871.         }

  3872.         break;

  3873.       case 3:

  3874.         for (i = v_A->LBOUND[0]; i <= v_A->UBOUND[0]; i++)

  3875.         {

  3876.           for (j = v_A->LBOUND[1]; j <= v_A->UBOUND[1]; j++)

  3877.           {

  3878.             for (k = v_A->LBOUND[2]; k <= v_A->UBOUND[2]; k++)

  3879.             {

  3880.               VariantType variant_L;

  3881.               VariantType variant_R;

  3882.               CLEAR_VARIANT (&variant_L);

  3883.               CLEAR_VARIANT (&variant_R);

  3884. 

  3885.               v_B->VINDEX[0] = i;

  3886.               v_B->VINDEX[1] = j;

  3887.               v_B->VINDEX[2] = k;

  3888.               if (var_get (v_B, &variant_L) == FALSE)

  3889.               {

  3890.                 WARN_VARIABLE_NOT_DECLARED;

  3891.                 return (l);

  3892.               }

  3893. 

  3894.               v_C->VINDEX[0] = i;

  3895.               v_C->VINDEX[1] = j;

  3896.               v_C->VINDEX[2] = k;

  3897.               if (var_get (v_C, &variant_R) == FALSE)

  3898.               {

  3899.                 WARN_VARIABLE_NOT_DECLARED;

  3900.                 return (l);

  3901.               }

  3902. 

  3903.               variant_L.Number -= variant_R.Number;

  3904. 

  3905.               v_A->VINDEX[0] = i;

  3906.               v_A->VINDEX[1] = j;

  3907.               v_A->VINDEX[2] = k;

  3908.               if (var_set (v_A, &variant_L) == FALSE)

  3909.               {

  3910.                 WARN_VARIABLE_NOT_DECLARED;

  3911.                 return (l);

  3912.               }

  3913.             }

  3914.           }

  3915.         }

  3916.         break;

  3917.       default:

  3918.         WARN_SYNTAX_ERROR;

  3919.         return (l);

  3920.       }

  3921.     }

  3922.     else if (line_skip_StarChar (l))

  3923.     {

  3924.       /* MAT A = B * C */

  3925.       int i;

  3926.       int j;

  3927.       int k;

  3928.       VariableType *v_C;

  3929.       char varname_C[NameLengthMax + 1];

  3930. 

  3931. 

  3932.       if (v_A->dimensions != 2)

  3933.       {

  3934.         WARN_SUBSCRIPT_OUT_OF_RANGE;

  3935.         return (l);

  3936.       }

  3937.       if (v_B->dimensions != 2)

  3938.       {

  3939.         WARN_SUBSCRIPT_OUT_OF_RANGE;

  3940.         return (l);

  3941.       }

  3942.       if (line_read_varname (l, varname_C) == FALSE)

  3943.       {

  3944.         WARN_SYNTAX_ERROR;

  3945.         return (l);

  3946.       }

  3947.       if ((v_C = mat_find (varname_C)) == NULL)

  3948.       {

  3949.         WARN_VARIABLE_NOT_DECLARED;

  3950.         return (l);

  3951.       }

  3952.       /* variable MUST be numeric */

  3953.       if (VAR_IS_STRING (v_C))

  3954.       {

  3955.         WARN_TYPE_MISMATCH;

  3956.         return (l);

  3957.       }

  3958.       if (line_read_matrix_redim (l, v_C) == FALSE)

  3959.       {

  3960.         WARN_SYNTAX_ERROR;

  3961.         return (l);

  3962.       }

  3963.       if (v_C->dimensions != 2)

  3964.       {

  3965.         WARN_SUBSCRIPT_OUT_OF_RANGE;

  3966.         return (l);

  3967.       }

  3968.       if (v_A->LBOUND[0] != v_B->LBOUND[0])

  3969.       {

  3970.         WARN_SUBSCRIPT_OUT_OF_RANGE;

  3971.         return (l);

  3972.       }

  3973.       if (v_A->UBOUND[0] != v_B->UBOUND[0])

  3974.       {

  3975.         WARN_SUBSCRIPT_OUT_OF_RANGE;

  3976.         return (l);

  3977.       }

  3978.       if (v_A->LBOUND[1] != v_C->LBOUND[1])

  3979.       {

  3980.         WARN_SUBSCRIPT_OUT_OF_RANGE;

  3981.         return (l);

  3982.       }

  3983.       if (v_A->UBOUND[1] != v_C->UBOUND[1])

  3984.       {

  3985.         WARN_SUBSCRIPT_OUT_OF_RANGE;

  3986.         return (l);

  3987.       }

  3988.       if (v_B->LBOUND[1] != v_C->LBOUND[0])

  3989.       {

  3990.         WARN_SUBSCRIPT_OUT_OF_RANGE;

  3991.         return (l);

  3992.       }

  3993.       if (v_B->UBOUND[1] != v_C->UBOUND[0])

  3994.       {

  3995.         WARN_SUBSCRIPT_OUT_OF_RANGE;

  3996.         return (l);

  3997.       }

  3998.       for (i = v_A->LBOUND[0]; i <= v_A->UBOUND[0]; i++)

  3999.       {

  4000.         for (j = v_A->LBOUND[1]; j <= v_A->UBOUND[1]; j++)

  4001.         {

  4002.           VariantType variant_A;

  4003.           CLEAR_VARIANT (&variant_A);

  4004. 

  4005.           variant_A.VariantTypeCode = v_A->VariableTypeCode;

  4006.           variant_A.Number = 0;

  4007. 

  4008.           v_A->VINDEX[0] = i;

  4009.           v_A->VINDEX[1] = j;

  4010.           if (var_set (v_A, &variant_A) == FALSE)

  4011.           {

  4012.             WARN_VARIABLE_NOT_DECLARED;

  4013.             return (l);

  4014.           }

  4015.           for (k = v_C->LBOUND[0]; k <= v_C->UBOUND[0]; k++)

  4016.           {

  4017.             VariantType variant_B;

  4018.             VariantType variant_C;

  4019.             CLEAR_VARIANT (&variant_B);

  4020.             CLEAR_VARIANT (&variant_C);

  4021. 

  4022.             v_A->VINDEX[0] = i;

  4023.             v_A->VINDEX[1] = j;

  4024.             if (var_get (v_A, &variant_A) == FALSE)

  4025.             {

  4026.               WARN_VARIABLE_NOT_DECLARED;

  4027.               return (l);

  4028.             }

  4029. 

  4030.             v_B->VINDEX[0] = i;

  4031.             v_B->VINDEX[1] = k;

  4032.             if (var_get (v_B, &variant_B) == FALSE)

  4033.             {

  4034.               WARN_VARIABLE_NOT_DECLARED;

  4035.               return (l);

  4036.             }

  4037. 

  4038.             v_C->VINDEX[0] = k;

  4039.             v_C->VINDEX[1] = j;

  4040.             if (var_get (v_C, &variant_C) == FALSE)

  4041.             {

  4042.               WARN_VARIABLE_NOT_DECLARED;

  4043.               return (l);

  4044.             }

  4045. 

  4046.             variant_A.Number += variant_B.Number * variant_C.Number;

  4047. 

  4048.             v_A->VINDEX[0] = i;

  4049.             v_A->VINDEX[1] = j;

  4050.             if (var_set (v_A, &variant_A) == FALSE)

  4051.             {

  4052.               WARN_VARIABLE_NOT_DECLARED;

  4053.               return (l);

  4054.             }

  4055.           }

  4056.         }

  4057.       }

  4058.     }

  4059.     else

  4060.     {

  4061.       WARN_SYNTAX_ERROR;

  4062.       return (l);

  4063.     }

  4064.   }

  4065.   return (l);

  4066. }

  4067. 

  4068. 

  4069. 

  4070. /* 

  4071. --------------------------------------------------------------------------------------------

  4072.                                STORE

  4073. --------------------------------------------------------------------------------------------

  4074. */

  4075. 

  4076. 

  4077. LineType *

  4078. bwb_STORE (LineType * l)

  4079. {

  4080.   /*

  4081.      SYNTAX:     STORE NumericArrayName

  4082.    */

  4083.    

  4084.   assert (l != NULL);

  4085.   return bwb_CSAVE8 (l);

  4086. }

  4087. 

  4088. 

  4089. /* 

  4090. --------------------------------------------------------------------------------------------

  4091.                                CSAVE*

  4092. --------------------------------------------------------------------------------------------

  4093. */

  4094. 

  4095. #define CSAVE_VERSION_1 0x20150218L

  4096. 

  4097. LineType *

  4098. bwb_CSAVE8 (LineType * l)

  4099. {

  4100.   /*

  4101.      SYNTAX:     CSAVE* NumericArrayName

  4102.    */

  4103.   VariableType *v = NULL;

  4104.   FILE *f;

  4105.   unsigned long n;

  4106.   size_t t;

  4107.   char varname[NameLengthMax + 1];

  4108.    

  4109.   assert (l != NULL);

  4110. 

  4111.   if (line_read_varname (l, varname) == FALSE)

  4112.   {

  4113.     WARN_SYNTAX_ERROR;

  4114.     return (l);

  4115.   }

  4116. 

  4117.   v = mat_find (varname);

  4118.   if (v == NULL)

  4119.   {

  4120.     WARN_VARIABLE_NOT_DECLARED;

  4121.     return (l);

  4122.   }

  4123.   /* variable MUST be numeric */

  4124.   if (VAR_IS_STRING (v))

  4125.   {

  4126.     WARN_SYNTAX_ERROR;

  4127.     return (l);

  4128.   }

  4129.   /* variable MUST be an array */

  4130.   if (v->dimensions == 0)

  4131.   {

  4132.     WARN_SYNTAX_ERROR;

  4133.     return (l);

  4134.   }

  4135.   if (line_read_matrix_redim (l, v) == FALSE)

  4136.   {

  4137.     WARN_SYNTAX_ERROR;

  4138.     return (l);

  4139.   }

  4140.   /* variable storage is a mess, we bypass that tradition here. */

  4141.   t = v->array_units;

  4142.   if (t <= 1)

  4143.   {

  4144.     WARN_SYNTAX_ERROR;

  4145.     return (l);

  4146.   }

  4147.   /* open file */

  4148.   f = fopen (v->name, "w");

  4149.   if (f == NULL)

  4150.   {

  4151.     WARN_SYNTAX_ERROR;

  4152.     return (l);

  4153.   }

  4154.   /* write version number */

  4155.   n = CSAVE_VERSION_1;

  4156.   fwrite (&n, sizeof (long), 1, f);

  4157.   /* write total number of elements */

  4158.   fwrite (&t, sizeof (long), 1, f);

  4159.   /* write data */

  4160.   fwrite (v->Value.Number, sizeof (DoubleType), t, f);

  4161.   /* OK */

  4162.   bwb_fclose (f);

  4163.   return (l);

  4164. }

  4165. 

  4166. /* 

  4167. --------------------------------------------------------------------------------------------

  4168.                                RECALL

  4169. --------------------------------------------------------------------------------------------

  4170. */

  4171. 

  4172. LineType *

  4173. bwb_RECALL (LineType * l)

  4174. {

  4175.   /*

  4176.      SYNTAX:     RECALL NumericArrayName

  4177.    */

  4178.    

  4179.   assert (l != NULL);

  4180.   return bwb_CLOAD8 (l);

  4181. }

  4182. 

  4183. /* 

  4184. --------------------------------------------------------------------------------------------

  4185.                                CLOAD*

  4186. --------------------------------------------------------------------------------------------

  4187. */

  4188. 

  4189. 

  4190. LineType *

  4191. bwb_CLOAD8 (LineType * l)

  4192. {

  4193.   /*

  4194.      SYNTAX:     CLOAD* NumericArrayName

  4195.    */

  4196.   VariableType *v = NULL;

  4197.   FILE *f;

  4198.   unsigned long n;

  4199.   size_t t;

  4200.   char varname[NameLengthMax + 1];

  4201.    

  4202.   assert (l != NULL);

  4203. 

  4204.   if (line_read_varname (l, varname) == FALSE)

  4205.   {

  4206.     WARN_SYNTAX_ERROR;

  4207.     return (l);

  4208.   }

  4209. 

  4210.   v = mat_find (varname);

  4211.   if (v == NULL)

  4212.   {

  4213.     WARN_VARIABLE_NOT_DECLARED;

  4214.     return (l);

  4215.   }

  4216. 

  4217.   /* variable MUST be numeric */

  4218.   if (VAR_IS_STRING (v))

  4219.   {

  4220.     WARN_SYNTAX_ERROR;

  4221.     return (l);

  4222.   }

  4223.   /* variable MUST be an array */

  4224.   if (v->dimensions == 0)

  4225.   {

  4226.     WARN_SYNTAX_ERROR;

  4227.     return (l);

  4228.   }

  4229.   if (line_read_matrix_redim (l, v) == FALSE)

  4230.   {

  4231.     WARN_SYNTAX_ERROR;

  4232.     return (l);

  4233.   }

  4234.   /* variable storage is a mess, we bypass that tradition here. */

  4235.   t = v->array_units;

  4236.   if (t <= 1)

  4237.   {

  4238.     WARN_SYNTAX_ERROR;

  4239.     return (l);

  4240.   }

  4241.   /* open file */

  4242.   f = fopen (v->name, "r");

  4243.   if (f == NULL)

  4244.   {

  4245.     WARN_BAD_FILE_NAME;

  4246.     return (l);

  4247.   }

  4248.   /* read version number */

  4249.   n = 0;

  4250.   fread (&n, sizeof (long), 1, f);

  4251.   if (n != CSAVE_VERSION_1)

  4252.   {

  4253.     bwb_fclose (f);

  4254.     WARN_BAD_FILE_NAME;

  4255.     return (l);

  4256.   }

  4257.   /* read total number of elements */

  4258.   n = 0;

  4259.   fread (&n, sizeof (long), 1, f);

  4260.   if (n != t)

  4261.   {

  4262.     bwb_fclose (f);

  4263.     WARN_BAD_FILE_NAME;

  4264.     return (l);

  4265.   }

  4266.   /* read data */

  4267.   fread (v->Value.Number, sizeof (DoubleType), t, f);

  4268.   /* OK */

  4269.   bwb_fclose (f);

  4270.   return (l);

  4271. }

  4272. 

  4273. 

  4274. 

  4275. 

  4276. /* 

  4277. ============================================================================================

  4278.                                SAVE and so on

  4279. ============================================================================================

  4280. */

  4281. 

  4282. static LineType *

  4283. bwb_save (LineType * Line, char *Prompt)

  4284. {

  4285.   /*

  4286.      SYNTAX:     SAVE [filename$]

  4287.    */

  4288.   FILE *outfile;

  4289.    

  4290.   assert (Line != NULL);

  4291.   assert (Prompt != NULL);

  4292.   assert( My != NULL );

  4293.   assert( My->ConsoleInput != NULL );

  4294.   assert( My->SYSOUT != NULL );

  4295.   assert( My->SYSOUT->cfp != NULL );

  4296. 

  4297. 

  4298.   /* Get an argument for filename */

  4299.   if (line_is_eol (Line))

  4300.   {

  4301.     /* default is the last filename used by LOAD or SAVE */

  4302.     if (is_empty_string (My->ProgramFilename) && Prompt != NULL)

  4303.     {

  4304.       /* prompt for the program name */

  4305.       char *tbuf;

  4306.       int tlen;

  4307. 

  4308.       tbuf = My->ConsoleInput;

  4309.       tlen = MAX_LINE_LENGTH;

  4310.       bwx_input (Prompt, FALSE, tbuf, tlen);

  4311.       if (is_empty_string (tbuf))

  4312.       {

  4313.         WARN_BAD_FILE_NAME;

  4314.         return (Line);

  4315.       }

  4316.       if (My->ProgramFilename != NULL)

  4317.       {

  4318.         free (My->ProgramFilename);

  4319.         My->ProgramFilename = NULL;

  4320.       }

  4321.       My->ProgramFilename = bwb_strdup (tbuf);

  4322.     }

  4323.     assert( My->ProgramFilename != NULL );

  4324.     fprintf (My->SYSOUT->cfp, "Saving %s\n", My->ProgramFilename);

  4325.     ResetConsoleColumn ();

  4326.   }

  4327.   else

  4328.   {

  4329.     char *Value;

  4330. 

  4331.     Value = NULL;

  4332.     if (line_read_string_expression (Line, &Value) == FALSE)

  4333.     {

  4334.       WARN_SYNTAX_ERROR;

  4335.       return (Line);

  4336.     }

  4337.     if (is_empty_string (Value))

  4338.     {

  4339.       WARN_BAD_FILE_NAME;

  4340.       return (Line);

  4341.     }

  4342.     if (My->ProgramFilename != NULL)

  4343.     {

  4344.       free (My->ProgramFilename);

  4345.     }

  4346.     My->ProgramFilename = Value;

  4347.   }

  4348.   assert( My->ProgramFilename != NULL );

  4349.   if ((outfile = fopen (My->ProgramFilename, "w")) == NULL)

  4350.   {

  4351.     WARN_BAD_FILE_NAME;

  4352.     return (Line);

  4353.   }

  4354.   bwb_xlist (Line, outfile);

  4355.   bwb_fclose (outfile);

  4356.   return (Line);

  4357. }

  4358. 

  4359. /* 

  4360. --------------------------------------------------------------------------------------------

  4361.                                CSAVE

  4362. --------------------------------------------------------------------------------------------

  4363. */

  4364. 

  4365. LineType *

  4366. bwb_CSAVE (LineType * Line)

  4367. {

  4368.   /*

  4369.      SYNTAX:     CSAVE [filename$]

  4370.    */

  4371.    

  4372.   assert (Line != NULL);

  4373.   return bwb_save (Line, "CSAVE FILE NAME:");

  4374. }

  4375. 

  4376. /* 

  4377. --------------------------------------------------------------------------------------------

  4378.                                REPLACE

  4379. --------------------------------------------------------------------------------------------

  4380. */

  4381. LineType *

  4382. bwb_REPLACE (LineType * Line)

  4383. {

  4384.   /*

  4385.      SYNTAX:     REPLACE [filename$]

  4386.    */

  4387.    

  4388.   assert (Line != NULL);

  4389.   return bwb_save (Line, "REPLACE FILE NAME:");

  4390. }

  4391. 

  4392. /* 

  4393. --------------------------------------------------------------------------------------------

  4394.                                SAVE

  4395. --------------------------------------------------------------------------------------------

  4396. */

  4397. LineType *

  4398. bwb_SAVE (LineType * l)

  4399. {

  4400.   /*

  4401.      SYNTAX:     SAVE [filename$]

  4402.    */

  4403.    

  4404.   assert (l != NULL);

  4405.   return bwb_save (l, "SAVE FILE NAME:");

  4406. }

  4407. 

  4408. /* 

  4409. --------------------------------------------------------------------------------------------

  4410.                                TSAVE

  4411. --------------------------------------------------------------------------------------------

  4412. */

  4413. 

  4414. LineType *

  4415. bwb_TSAVE (LineType * Line)

  4416. {

  4417.   /*

  4418.      SYNTAX:     TSAVE [filename$]

  4419.    */

  4420.    

  4421.   assert (Line != NULL);

  4422.   return bwb_save (Line, "TSAVE FILE NAME:");

  4423. }

  4424. 

  4425. 

  4426. /* 

  4427. ============================================================================================

  4428.                                LIST and so on

  4429. ============================================================================================

  4430. */

  4431. static int

  4432. xl_line (FILE * file, LineType * l)

  4433. {

  4434.   char LineExecuted;

  4435.   char *C;                        /* start of comment text */

  4436.   char *buffer;                        /* 0...99999 */

  4437.    

  4438.   assert (file != NULL);

  4439.   assert (l != NULL);

  4440.   assert( My != NULL );

  4441.   assert( My->NumLenBuffer != NULL );

  4442.   assert( My->CurrentVersion != NULL );

  4443.   assert( My->SYSOUT != NULL );

  4444.   assert( My->SYSOUT->cfp != NULL );

  4445.   assert( My->SYSPRN != NULL );

  4446.   assert( My->SYSPRN->cfp != NULL );

  4447. 

  4448.   /*

  4449.    ** The only difference between LIST, LLIST and SAVE is:

  4450.    ** LIST and LLIST display an '*' 

  4451.    ** when a line has been executed

  4452.    ** and OPTION COVERAGE ON is enabled.

  4453.    */

  4454. 

  4455.   buffer = My->NumLenBuffer;

  4456.   LineExecuted = ' ';

  4457.   if (My->CurrentVersion->OptionFlags & (OPTION_COVERAGE_ON))

  4458.   {

  4459.     if (l->LineFlags & LINE_EXECUTED)

  4460.     {

  4461.       if (file == My->SYSOUT->cfp || file == My->SYSPRN->cfp)

  4462.       {

  4463.         /* LIST */

  4464.         /* LLIST */

  4465.         LineExecuted = '*';

  4466.       }

  4467.       else

  4468.       {

  4469.         /* SAVE */

  4470.         /* EDIT implies SAVE */

  4471.       }

  4472.     }

  4473.   }

  4474. 

  4475.   C = l->buffer;

  4476.   if (l->LineFlags & LINE_NUMBERED)

  4477.   {

  4478.     /* explicitly numbered */

  4479.     sprintf (buffer, "%*d", LineNumberDigits, l->number);

  4480.     /* ##### xxx */

  4481.   }

  4482.   else

  4483.   {

  4484.     /* implicitly numbered */

  4485.     if (My->LastLineNumber == l->number)

  4486.     {

  4487.       /* multi-statement line */

  4488.       if (l->cmdnum == C_REM

  4489.           && IS_CHAR (l->buffer[0], My->CurrentVersion->OptionCommentChar))

  4490.       {

  4491.         /* trailing comment */

  4492.         sprintf (buffer, "%*s%c", LineNumberDigits - 1, "",

  4493.                  My->CurrentVersion->OptionCommentChar);

  4494.         C++;                        /* skip comment char */

  4495.         while (*C == ' ')

  4496.         {

  4497.           /* skip spaces */

  4498.           C++;

  4499.         }

  4500.         /* ____' xxx */

  4501.       }

  4502.       else if (My->CurrentVersion->OptionStatementChar)

  4503.       {

  4504.         /* all other commands, add a colon */

  4505.         sprintf (buffer, "%*s%c", LineNumberDigits - 1, "",

  4506.                  My->CurrentVersion->OptionStatementChar);

  4507.         /* ____: xxx */

  4508.       }

  4509.       else

  4510.       {

  4511.         /*

  4512.            The user is trying to list a multi-line statement 

  4513.            in a dialect that does NOT support multi-line statements.  

  4514.            This could occur when LOADing in one dialect and then SAVEing as another dialect, such as:

  4515.            OPTION VERSION BASIC-80

  4516.            LOAD "TEST1.BAS"

  4517.            100 REM TEST

  4518.            110 PRINT:PRINT:PRINT

  4519.            OPTION VERSION MARK-I

  4520.            EDIT

  4521.            100 REM TEST

  4522.            110 PRINT

  4523.            PRINT

  4524.            PRINT

  4525.            The only thing we can reasonably do is put spaces for the line number,

  4526.            since the user will have to edit the results manually anyways.

  4527.          */

  4528.         sprintf (buffer, "%*s", LineNumberDigits, "");

  4529.         /* _____ xxx */

  4530.       }

  4531.     }

  4532.     else

  4533.     {

  4534.       /* single-statement line */

  4535.       sprintf (buffer, "%*s", LineNumberDigits, "");

  4536.       /* _____ xxx */

  4537.     }

  4538.   }

  4539. 

  4540.   fprintf (file, "%s", buffer);

  4541.   fprintf (file, "%c", LineExecuted);

  4542. 

  4543.   /* if( TRUE ) */

  4544.   {

  4545.     /* %INCLUDE */

  4546.     int i;

  4547.     for (i = 0; i < l->IncludeLevel; i++)

  4548.     {

  4549.       fputc (' ', file);

  4550.     }

  4551.   }

  4552.   if (My->OptionIndentInteger > 0)

  4553.   {

  4554.     int i;

  4555. 

  4556.     for (i = 0; i < l->Indention; i++)

  4557.     {

  4558.       int j;

  4559.       for (j = 0; j < My->OptionIndentInteger; j++)

  4560.       {

  4561.         fputc (' ', file);

  4562.       }

  4563.     }

  4564.   }

  4565.   fprintf (file, "%s\n", C);

  4566. 

  4567.   My->LastLineNumber = l->number;

  4568. 

  4569.   return TRUE;

  4570. }

  4571. 

  4572. static LineType *

  4573. bwb_xlist (LineType * l, FILE * file)

  4574. {

  4575.    

  4576.   assert (l != NULL);

  4577.   assert (file != NULL);

  4578.   assert( My != NULL );

  4579.   assert( My->StartMarker != NULL );

  4580.   assert( My->EndMarker != NULL );

  4581. 

  4582.   /*

  4583.    **

  4584.    ** FORCE SCAN

  4585.    **

  4586.    */

  4587.   if (bwb_scan () == FALSE)

  4588.   {

  4589.     /*

  4590.      **

  4591.      ** we are used by bwb_SAVE and bwb_EDIT

  4592.      **

  4593.      WARN_CANT_CONTINUE;

  4594.      return (l);

  4595.      */

  4596.   }

  4597. 

  4598.   if (line_is_eol (l))

  4599.   {

  4600.     /* LIST */

  4601.     LineType *x;

  4602.     /* now go through and list appropriate lines */

  4603.     My->LastLineNumber = -1;

  4604.     for (x = My->StartMarker->next; x != My->EndMarker; x = x->next)

  4605.     {

  4606.       xl_line (file, x);

  4607.     }

  4608.     fprintf (file, "\n");

  4609.   }

  4610.   else

  4611.   {

  4612.     do

  4613.     {

  4614.       int head;

  4615.       int tail;

  4616. 

  4617.       if (line_read_line_sequence (l, &head, &tail))

  4618.       {

  4619.         /* LIST 's' - 'e' */

  4620.         LineType *x;

  4621.         if (head < MINLIN || head > MAXLIN)

  4622.         {

  4623.           WARN_UNDEFINED_LINE;

  4624.           return (l);

  4625.         }

  4626.         if (tail < MINLIN || tail > MAXLIN)

  4627.         {

  4628.           WARN_UNDEFINED_LINE;

  4629.           return (l);

  4630.         }

  4631.         if (head > tail)

  4632.         {

  4633.           WARN_UNDEFINED_LINE;

  4634.           return (l);

  4635.         }

  4636.         /* valid range */

  4637.         /* now go through and list appropriate lines */

  4638.         My->LastLineNumber = -1;

  4639.         for (x = My->StartMarker->next; x != My->EndMarker; x = x->next)

  4640.         {

  4641.           if (head <= x->number && x->number <= tail)

  4642.           {

  4643.             xl_line (file, x);

  4644.           }

  4645.         }

  4646.         fprintf (file, "\n");

  4647.       }

  4648.       else

  4649.       {

  4650.         WARN_SYNTAX_ERROR;

  4651.         return (l);

  4652.       }

  4653.     }

  4654.     while (line_skip_seperator (l));

  4655.   }

  4656.   if (file == My->SYSOUT->cfp)

  4657.   {

  4658.     ResetConsoleColumn ();

  4659.   }

  4660.   return (l);

  4661. }

  4662. 

  4663. /* 

  4664. --------------------------------------------------------------------------------------------

  4665.                                LIST

  4666. --------------------------------------------------------------------------------------------

  4667. */

  4668. LineType *

  4669. bwb_LIST (LineType * l)

  4670. {

  4671.   /*

  4672.      SYNTAX:     LIST

  4673.      SYNTAX:     LIST line [,...]

  4674.      SYNTAX:     LIST line - line

  4675.    */

  4676.    

  4677.   assert (l != NULL);

  4678. 

  4679.   return bwb_xlist (l, My->SYSOUT->cfp);

  4680. }

  4681. 

  4682. /* 

  4683. --------------------------------------------------------------------------------------------

  4684.                                LISTNH

  4685. --------------------------------------------------------------------------------------------

  4686. */

  4687. LineType *

  4688. bwb_LISTNH (LineType * l)

  4689. {

  4690.   /*

  4691.      SYNTAX:     LISTNH

  4692.      SYNTAX:     LISTNH line [,...]

  4693.      SYNTAX:     LISTNH line - line

  4694.    */

  4695.    

  4696.   assert (l != NULL);

  4697. 

  4698.   return bwb_xlist (l, My->SYSOUT->cfp);

  4699. }

  4700. 

  4701. /* 

  4702. --------------------------------------------------------------------------------------------

  4703.                                LLIST

  4704. --------------------------------------------------------------------------------------------

  4705. */

  4706. 

  4707. LineType *

  4708. bwb_LLIST (LineType * l)

  4709. {

  4710.   /*

  4711.      SYNTAX:     LLIST

  4712.      SYNTAX:     LLIST line [,...]

  4713.      SYNTAX:     LLIST line - line

  4714.    */

  4715.    

  4716.   assert (l != NULL);

  4717. 

  4718.   return bwb_xlist (l, My->SYSPRN->cfp);

  4719. }

  4720. 

  4721. 

  4722. 

  4723. /* 

  4724. ============================================================================================

  4725.                                DELETE and so on

  4726. ============================================================================================

  4727. */

  4728. 

  4729. static LineType *

  4730. bwb_delete (LineType * l)

  4731. {

  4732.    

  4733.   assert (l != NULL);

  4734.   assert( My != NULL );

  4735.   assert( My->CurrentVersion != NULL );

  4736.   assert( My->StartMarker != NULL );

  4737.   assert( My->EndMarker != NULL );

  4738. 

  4739.   if (line_is_eol (l))

  4740.   {

  4741.     /* DELETE */

  4742.     WARN_SYNTAX_ERROR;

  4743.     return (l);

  4744.   }

  4745.   else if (My->CurrentVersion->OptionVersionValue & (C77))

  4746.   {

  4747.     /*

  4748.        SYNTAX:     DELETE filenum [,...]

  4749.      */

  4750.     do

  4751.     {

  4752.       int FileNumber;

  4753. 

  4754.       FileNumber = 0;

  4755.       if (line_read_integer_expression (l, &FileNumber) == FALSE)

  4756.       {

  4757.         WARN_BAD_FILE_NUMBER;

  4758.         return (l);

  4759.       }

  4760.       if (FileNumber <= 0)

  4761.       {

  4762.         WARN_BAD_FILE_NUMBER;

  4763.         return (l);

  4764.       }

  4765. 

  4766.       My->CurrentFile = find_file_by_number (FileNumber);

  4767.       if (My->CurrentFile == NULL)

  4768.       {

  4769.         WARN_BAD_FILE_NUMBER;

  4770.         return (l);

  4771.       }

  4772.       if (My->CurrentFile->DevMode == DEVMODE_CLOSED)

  4773.       {

  4774.         WARN_BAD_FILE_NUMBER;

  4775.         return (l);

  4776.       }

  4777.       if (My->CurrentFile->cfp != NULL)

  4778.       {

  4779.         bwb_fclose (My->CurrentFile->cfp);

  4780.         My->CurrentFile->cfp = NULL;

  4781.       }

  4782.       if (My->CurrentFile->buffer != NULL)

  4783.       {

  4784.         free (My->CurrentFile->buffer);

  4785.         My->CurrentFile->buffer = NULL;

  4786.       }

  4787.       My->CurrentFile->width = 0;

  4788.       My->CurrentFile->col = 1;

  4789.       My->CurrentFile->row = 1;

  4790.       My->CurrentFile->delimit = ',';

  4791.       My->CurrentFile->DevMode = DEVMODE_CLOSED;

  4792.       if (My->CurrentFile->FileName == NULL)

  4793.       {

  4794.         WARN_BAD_FILE_NAME;

  4795.         return (l);

  4796.       }

  4797.       remove (My->CurrentFile->FileName);

  4798.       free (My->CurrentFile->FileName);

  4799.       My->CurrentFile->FileName = NULL;

  4800.     }

  4801.     while (line_skip_seperator (l));

  4802.     /* OK */

  4803.     return (l);

  4804.   }

  4805.   else

  4806.   {

  4807.     /*

  4808.        SYNTAX:     DELETE line [,...]

  4809.        SYNTAX:     DELETE line - line

  4810.      */

  4811. 

  4812.     do

  4813.     {

  4814.       int head;

  4815.       int tail;

  4816. 

  4817.       if (line_read_line_sequence (l, &head, &tail))

  4818.       {

  4819.         /* DELETE 's' - 'e' */

  4820.         LineType *x;

  4821.         LineType *previous;

  4822.         if (head < MINLIN || head > MAXLIN)

  4823.         {

  4824.           WARN_UNDEFINED_LINE;

  4825.           return (l);

  4826.         }

  4827.         if (tail < MINLIN || tail > MAXLIN)

  4828.         {

  4829.           WARN_UNDEFINED_LINE;

  4830.           return (l);

  4831.         }

  4832.         if (head > tail)

  4833.         {

  4834.           WARN_UNDEFINED_LINE;

  4835.           return (l);

  4836.         }

  4837.         /* valid range */

  4838. 

  4839.         /* avoid deleting ourself */

  4840. 

  4841.         if (l->LineFlags & (LINE_USER))

  4842.         {

  4843.           /* console line (immediate mode) */

  4844.         }

  4845.         else if (head <= l->number && l->number <= tail)

  4846.         {

  4847.           /* 100 DELETE 100 */

  4848.           WARN_CANT_CONTINUE;

  4849.           return (l);

  4850.         }

  4851.         /* now go through and list appropriate lines */

  4852.         previous = My->StartMarker;

  4853.         for (x = My->StartMarker->next; x != My->EndMarker;)

  4854.         {

  4855.           LineType *next;

  4856. 

  4857.           next = x->next;

  4858.           if (x->number < head)

  4859.           {

  4860.             previous = x;

  4861.           }

  4862.           else if (head <= x->number && x->number <= tail)

  4863.           {

  4864.             if (x == l)

  4865.             {

  4866.               /* 100 DELETE 100 */

  4867.               WARN_CANT_CONTINUE;

  4868.               return (l);

  4869.             }

  4870.             bwb_freeline (x);

  4871.             previous->next = next;

  4872.           }

  4873.           x = next;

  4874.         }

  4875.       }

  4876.       else

  4877.       {

  4878.         WARN_SYNTAX_ERROR;

  4879.         return (l);

  4880.       }

  4881.     }

  4882.     while (line_skip_seperator (l));

  4883.     /*

  4884.      **

  4885.      ** FORCE SCAN

  4886.      **

  4887.      */

  4888.     if (bwb_scan () == FALSE)

  4889.     {

  4890.       WARN_CANT_CONTINUE;

  4891.       return (l);

  4892.     }

  4893.   }

  4894.   return (l);

  4895. }

  4896. 

  4897. /* 

  4898. --------------------------------------------------------------------------------------------

  4899.                                DELETE

  4900. --------------------------------------------------------------------------------------------

  4901. */

  4902. LineType *

  4903. bwb_DELETE (LineType * l)

  4904. {

  4905.    

  4906.   assert (l != NULL);

  4907. 

  4908.   return bwb_delete (l);

  4909. }

  4910. 

  4911. /* 

  4912. --------------------------------------------------------------------------------------------

  4913.                                PDEL

  4914. --------------------------------------------------------------------------------------------

  4915. */

  4916. LineType *

  4917. bwb_PDEL (LineType * l)

  4918. {

  4919.    

  4920.   assert (l != NULL);

  4921. 

  4922.   return bwb_delete (l);

  4923. }

  4924. 

  4925. #if FALSE                        /* keep the source to DONUM and DOUNNUM */

  4926. 

  4927. /* 

  4928. --------------------------------------------------------------------------------------------

  4929.                                DONUM

  4930. --------------------------------------------------------------------------------------------

  4931. */

  4932. 

  4933. LineType *

  4934. bwb_donum (LineType * l)

  4935. {

  4936.   /*

  4937.      SYNTAX:     DONUM

  4938.    */

  4939.   LineType *current;

  4940.   int lnumber;

  4941.    

  4942.   assert (l != NULL);

  4943.   assert( My != NULL );

  4944.   assert( My->StartMarker != NULL );

  4945.   assert( My->EndMarker != NULL );

  4946. 

  4947.   lnumber = 10;

  4948.   for (current = My->StartMarker->next; current != My->EndMarker;

  4949.        current = current->next)

  4950.   {

  4951.     current->number = lnumber;

  4952. 

  4953.     lnumber += 10;

  4954.     if (lnumber > MAXLIN)

  4955.     {

  4956.       return (l);

  4957.     }

  4958.   }

  4959. 

  4960.   return (l);

  4961. }

  4962. 

  4963. /* 

  4964. --------------------------------------------------------------------------------------------

  4965.                                DOUNUM

  4966. --------------------------------------------------------------------------------------------

  4967. */

  4968. 

  4969. LineType *

  4970. bwb_dounnum (LineType * l)

  4971. {

  4972.   /*

  4973.      SYNTAX:     DOUNNUM

  4974.    */

  4975.   LineType *current;

  4976.    

  4977.   assert (l != NULL);

  4978.   assert( My != NULL );

  4979.   assert( My->StartMarker != NULL );

  4980.   assert( My->EndMarker != NULL );

  4981. 

  4982.   for (current = My->StartMarker->next; current != My->EndMarker;

  4983.        current = current->next)

  4984.   {

  4985.     current->number = 0;

  4986.   }

  4987. 

  4988.   return (l);

  4989. }

  4990. 

  4991. #endif /* FALSE */

  4992. 

  4993. 

  4994. 

  4995. /* 

  4996. --------------------------------------------------------------------------------------------

  4997.                                FILES

  4998. --------------------------------------------------------------------------------------------

  4999. */

  5000. LineType *

  5001. bwb_FILES (LineType * l)

  5002. {

  5003.   /*

  5004.      SYNTAX:     FILES A$ [, ...]

  5005.    */

  5006.   /* open a list of files in READ mode */

  5007.    

  5008.   assert (l != NULL);

  5009.   assert( My != NULL );

  5010. 

  5011.   do

  5012.   {

  5013.     int FileNumber;

  5014. 

  5015.     FileNumber = My->LastFileNumber;

  5016.     FileNumber++;

  5017.     if (FileNumber < 0)

  5018.     {

  5019.       WARN_BAD_FILE_NUMBER;

  5020.       return (l);

  5021.     }

  5022.     if (FileNumber == 0)

  5023.     {

  5024.       WARN_BAD_FILE_NUMBER;

  5025.       return (l);

  5026.     }

  5027.     My->CurrentFile = find_file_by_number (FileNumber);

  5028.     if (My->CurrentFile == NULL)

  5029.     {

  5030.       My->CurrentFile = file_new ();

  5031.       My->CurrentFile->FileNumber = FileNumber;

  5032.     }

  5033.     {

  5034.       char *Value;

  5035. 

  5036.       Value = NULL;

  5037.       if (line_read_string_expression (l, &Value) == FALSE)

  5038.       {

  5039.         WARN_SYNTAX_ERROR;

  5040.         return (l);

  5041.       }

  5042.       if (Value == NULL)

  5043.       {

  5044.         WARN_SYNTAX_ERROR;

  5045.         return (l);

  5046.       }

  5047.       if (My->CurrentFile->FileName != NULL)

  5048.       {

  5049.         free (My->CurrentFile->FileName);

  5050.         My->CurrentFile->FileName = NULL;

  5051.       }

  5052.       My->CurrentFile->FileName = Value;

  5053.       Value = NULL;

  5054.     }

  5055.     if (My->CurrentFile->DevMode != DEVMODE_CLOSED)

  5056.     {

  5057.       My->CurrentFile->DevMode = DEVMODE_CLOSED;

  5058.     }

  5059.     if (My->CurrentFile->cfp != NULL)

  5060.     {

  5061.       bwb_fclose (My->CurrentFile->cfp);

  5062.       My->CurrentFile->cfp = NULL;

  5063.     }

  5064.     if (My->CurrentFile->buffer != NULL)

  5065.     {

  5066.       free (My->CurrentFile->buffer);

  5067.       My->CurrentFile->buffer = NULL;

  5068.     }

  5069.     My->CurrentFile->width = 0;

  5070.     My->CurrentFile->col = 1;

  5071.     My->CurrentFile->row = 1;

  5072.     My->CurrentFile->delimit = ',';

  5073.     if (is_empty_string (My->CurrentFile->FileName))

  5074.     {

  5075.       WARN_BAD_FILE_NAME;

  5076.       return (l);

  5077.     }

  5078.     if (bwb_strcmp (My->CurrentFile->FileName, "*") != 0)

  5079.     {

  5080.       if ((My->CurrentFile->cfp =

  5081.            fopen (My->CurrentFile->FileName, "r")) == NULL)

  5082.       {

  5083.         WARN_BAD_FILE_NAME;

  5084.         return (l);

  5085.       }

  5086.       My->CurrentFile->DevMode = DEVMODE_INPUT;

  5087.     }

  5088.     My->LastFileNumber = FileNumber;

  5089.     /* OK */

  5090.   }

  5091.   while (line_skip_seperator (l));

  5092.   return (l);

  5093. }

  5094. 

  5095. /* 

  5096. --------------------------------------------------------------------------------------------

  5097.                                FILE

  5098. --------------------------------------------------------------------------------------------

  5099. */

  5100. LineType *

  5101. bwb_FILE (LineType * l)

  5102. {

  5103.    

  5104.   assert (l != NULL);

  5105.   assert( My != NULL );

  5106.   assert( My->CurrentVersion != NULL );

  5107. 

  5108.   if (My->CurrentVersion->OptionVersionValue & (C77))

  5109.   {

  5110.     /* 

  5111.        CBASIC-II: 

  5112.        FILE file_name$                      ' filename$ must be a simple string scalar (no arrays)

  5113.        FILE file_name$ ( record_length% )   ' filename$ must be a simple string scalar (no arrays)

  5114.        -- if the file exists, 

  5115.        then it is used, 

  5116.        else it is created.

  5117.        -- Does not trigger IF END #

  5118.      */

  5119.     do

  5120.     {

  5121.       int FileNumber;

  5122.       VariableType *v;

  5123.       char varname[NameLengthMax + 1];

  5124. 

  5125.       if (line_read_varname (l, varname) == FALSE)

  5126.       {

  5127.         WARN_BAD_FILE_NAME;

  5128.         return (l);

  5129.       }

  5130.       if (is_empty_string (varname))

  5131.       {

  5132.         WARN_BAD_FILE_NAME;

  5133.         return (l);

  5134.       }

  5135.       v = find_variable_by_type (varname, 0, StringTypeCode);

  5136.       if (v == NULL)

  5137.       {

  5138.         WARN_VARIABLE_NOT_DECLARED;

  5139.         return (l);

  5140.       }

  5141.       if (VAR_IS_STRING (v))

  5142.       {

  5143.         /* OK */

  5144.       }

  5145.       else

  5146.       {

  5147.         WARN_TYPE_MISMATCH;

  5148.         return (l);

  5149.       }

  5150. 

  5151.       FileNumber = My->LastFileNumber;

  5152.       FileNumber++;

  5153.       if (FileNumber < 0)

  5154.       {

  5155.         WARN_BAD_FILE_NUMBER;

  5156.         return (l);

  5157.       }

  5158.       if (FileNumber == 0)

  5159.       {

  5160.         WARN_BAD_FILE_NUMBER;

  5161.         return (l);

  5162.       }

  5163.       My->CurrentFile = find_file_by_number (FileNumber);

  5164.       if (My->CurrentFile == NULL)

  5165.       {

  5166.         My->CurrentFile = file_new ();

  5167.         My->CurrentFile->FileNumber = FileNumber;

  5168.       }

  5169.       if (My->CurrentFile->DevMode != DEVMODE_CLOSED)

  5170.       {

  5171.         My->CurrentFile->DevMode = DEVMODE_CLOSED;

  5172.       }

  5173.       if (My->CurrentFile->cfp != NULL)

  5174.       {

  5175.         bwb_fclose (My->CurrentFile->cfp);

  5176.         My->CurrentFile->cfp = NULL;

  5177.       }

  5178.       if (My->CurrentFile->buffer != NULL)

  5179.       {

  5180.         free (My->CurrentFile->buffer);

  5181.         My->CurrentFile->buffer = NULL;

  5182.       }

  5183.       My->CurrentFile->width = 0;

  5184.       My->CurrentFile->col = 1;

  5185.       My->CurrentFile->row = 1;

  5186.       My->CurrentFile->delimit = ',';

  5187.       /* OK */

  5188.       if (line_skip_LparenChar (l))

  5189.       {

  5190.         /* RANDOM file */

  5191.         int RecLen;

  5192. 

  5193.         if (line_read_integer_expression (l, &RecLen) == FALSE)

  5194.         {

  5195.           WARN_FIELD_OVERFLOW;

  5196.           return (l);

  5197.         }

  5198.         if (RecLen <= 0)

  5199.         {

  5200.           WARN_FIELD_OVERFLOW;

  5201.           return (l);

  5202.         }

  5203.         if (line_skip_RparenChar (l) == FALSE)

  5204.         {

  5205.           WARN_SYNTAX_ERROR;

  5206.           return (l);

  5207.         }

  5208.         if ((My->CurrentFile->buffer =

  5209.              (char *) calloc (RecLen + 1 /* NulChar */ ,

  5210.                               sizeof (char))) == NULL)

  5211.         {

  5212.           WARN_OUT_OF_MEMORY;

  5213.           return (l);

  5214.         }

  5215.         My->CurrentFile->width = RecLen;

  5216.       }

  5217. 

  5218.       /* if( TRUE ) */

  5219.       {

  5220.         VariantType variant;

  5221.         CLEAR_VARIANT (&variant);

  5222. 

  5223.         if (var_get (v, &variant) == FALSE)

  5224.         {

  5225.           WARN_VARIABLE_NOT_DECLARED;

  5226.           return (l);

  5227.         }

  5228.         if (variant.VariantTypeCode == StringTypeCode)

  5229.         {

  5230.           if (My->CurrentFile->FileName != NULL)

  5231.           {

  5232.             free (My->CurrentFile->FileName);

  5233.             My->CurrentFile->FileName = NULL;

  5234.           }

  5235.           My->CurrentFile->FileName = variant.Buffer;

  5236.           variant.Buffer = NULL;

  5237.         }

  5238.         else

  5239.         {

  5240.           WARN_TYPE_MISMATCH;

  5241.           return (l);

  5242.         }

  5243.       }

  5244.       if (is_empty_string (My->CurrentFile->FileName))

  5245.       {

  5246.         WARN_BAD_FILE_NAME;

  5247.         return (l);

  5248.       }

  5249.       My->CurrentFile->cfp = fopen (My->CurrentFile->FileName, "r+");

  5250.       if (My->CurrentFile->cfp == NULL)

  5251.       {

  5252.         My->CurrentFile->cfp = fopen (My->CurrentFile->FileName, "w");

  5253.         if (My->CurrentFile->cfp != NULL)

  5254.         {

  5255.           bwb_fclose (My->CurrentFile->cfp);

  5256.           My->CurrentFile->cfp = fopen (My->CurrentFile->FileName, "r+");

  5257.         }

  5258.       }

  5259.       if (My->CurrentFile->cfp == NULL)

  5260.       {

  5261.         WARN_BAD_FILE_NAME;

  5262.         return (l);

  5263.       }

  5264.       if (My->CurrentFile->width > 0)

  5265.       {

  5266.         /* RANDOM file */

  5267.         My->CurrentFile->DevMode = DEVMODE_RANDOM;

  5268.       }

  5269.       else

  5270.       {

  5271.         /* SERIAL file */

  5272.         My->CurrentFile->DevMode = DEVMODE_INPUT | DEVMODE_OUTPUT;

  5273.       }

  5274.       /* OK */

  5275.       My->LastFileNumber = FileNumber;

  5276.     }

  5277.     while (line_skip_seperator (l));

  5278.     /* OK */

  5279.     return (l);

  5280.   }

  5281.   if (line_skip_FilenumChar (l))

  5282.   {

  5283.     /*

  5284.        SYNTAX:     FILE # X, A$

  5285.      */

  5286.     int FileNumber;

  5287. 

  5288.     if (line_read_integer_expression (l, &FileNumber) == FALSE)

  5289.     {

  5290.       WARN_BAD_FILE_NUMBER;

  5291.       return (l);

  5292.     }

  5293.     if (line_skip_seperator (l))

  5294.     {

  5295.       /* OK */

  5296.     }

  5297.     else

  5298.     {

  5299.       WARN_SYNTAX_ERROR;

  5300.       return (l);

  5301.     }

  5302.     if (FileNumber < 0)

  5303.     {

  5304.       /* "FILE # -1" is an ERROR */

  5305.       WARN_BAD_FILE_NUMBER;

  5306.       return (l);

  5307.     }

  5308.     if (FileNumber == 0)

  5309.     {

  5310.       /* "FILE # 0" is an ERROR */

  5311.       WARN_BAD_FILE_NUMBER;

  5312.       return (l);

  5313.     }

  5314.     My->CurrentFile = find_file_by_number (FileNumber);

  5315.     if (My->CurrentFile == NULL)

  5316.     {

  5317.       My->CurrentFile = file_new ();

  5318.       My->CurrentFile->FileNumber = FileNumber;

  5319.     }

  5320.     {

  5321.       char *Value;

  5322. 

  5323.       Value = NULL;

  5324.       if (line_read_string_expression (l, &Value) == FALSE)

  5325.       {

  5326.         WARN_SYNTAX_ERROR;

  5327.         return (l);

  5328.       }

  5329.       if (Value == NULL)

  5330.       {

  5331.         WARN_SYNTAX_ERROR;

  5332.         return (l);

  5333.       }

  5334.       if (My->CurrentFile->FileName != NULL)

  5335.       {

  5336.         free (My->CurrentFile->FileName);

  5337.         My->CurrentFile->FileName = NULL;

  5338.       }

  5339.       My->CurrentFile->FileName = Value;

  5340.       Value = NULL;

  5341.     }

  5342.     if (My->CurrentFile->DevMode != DEVMODE_CLOSED)

  5343.     {

  5344.       My->CurrentFile->DevMode = DEVMODE_CLOSED;

  5345.     }

  5346.     if (My->CurrentFile->cfp != NULL)

  5347.     {

  5348.       bwb_fclose (My->CurrentFile->cfp);

  5349.       My->CurrentFile->cfp = NULL;

  5350.     }

  5351.     if (My->CurrentFile->buffer != NULL)

  5352.     {

  5353.       free (My->CurrentFile->buffer);

  5354.       My->CurrentFile->buffer = NULL;

  5355.     }

  5356.     My->CurrentFile->width = 0;

  5357.     My->CurrentFile->col = 1;

  5358.     My->CurrentFile->row = 1;

  5359.     My->CurrentFile->delimit = ',';

  5360.     if (is_empty_string (My->CurrentFile->FileName))

  5361.     {

  5362.       WARN_BAD_FILE_NAME;

  5363.       return (l);

  5364.     }

  5365.     if (bwb_strcmp (My->CurrentFile->FileName, "*") != 0)

  5366.     {

  5367.       if ((My->CurrentFile->cfp =

  5368.            fopen (My->CurrentFile->FileName, "r")) == NULL)

  5369.       {

  5370.         WARN_BAD_FILE_NAME;

  5371.         return (l);

  5372.       }

  5373.       My->CurrentFile->DevMode = DEVMODE_INPUT;

  5374.     }

  5375.     /* OK */

  5376.     return (l);

  5377.   }

  5378.   WARN_SYNTAX_ERROR;

  5379.   return (l);

  5380. }

  5381. 

  5382. /* 

  5383. --------------------------------------------------------------------------------------------

  5384.                                DELIMIT

  5385. --------------------------------------------------------------------------------------------

  5386. */

  5387. LineType *

  5388. bwb_DELIMIT (LineType * l)

  5389. {

  5390.   /*

  5391.      SYNTAX:     DELIMIT # X, A$

  5392.    */

  5393.    

  5394.   assert (l != NULL);

  5395.   assert( My != NULL );

  5396.   assert( My->SYSIN != NULL );

  5397. 

  5398.   if (line_skip_FilenumChar (l))

  5399.   {

  5400.     /* DELIMIT # */

  5401.     int FileNumber;

  5402.     char delimit;

  5403. 

  5404.     My->CurrentFile = My->SYSIN;

  5405. 

  5406.     if (line_read_integer_expression (l, &FileNumber) == FALSE)

  5407.     {

  5408.       WARN_BAD_FILE_NUMBER;

  5409.       return (l);

  5410.     }

  5411.     if (line_skip_seperator (l))

  5412.     {

  5413.       /* OK */

  5414.     }

  5415.     else

  5416.     {

  5417.       WARN_SYNTAX_ERROR;

  5418.       return (l);

  5419.     }

  5420.     {

  5421.       char *Value;

  5422. 

  5423.       Value = NULL;

  5424.       if (line_read_string_expression (l, &Value) == FALSE)

  5425.       {

  5426.         WARN_SYNTAX_ERROR;

  5427.         return (l);

  5428.       }

  5429.       if (Value == NULL)

  5430.       {

  5431.         WARN_SYNTAX_ERROR;

  5432.         return (l);

  5433.       }

  5434.       delimit = Value[0];

  5435.       free (Value);

  5436.       Value = NULL;

  5437.       if (bwb_ispunct (delimit))

  5438.       {

  5439.         /* OK */

  5440.       }

  5441.       else

  5442.       {

  5443.         WARN_ILLEGAL_FUNCTION_CALL;

  5444.         return (l);

  5445.       }

  5446.     }

  5447.     if (FileNumber < 0)

  5448.     {

  5449.       /* "DELIMIT # -1" is SYSPRN */

  5450.       My->SYSPRN->delimit = delimit;

  5451.       return (l);

  5452.     }

  5453.     if (FileNumber == 0)

  5454.     {

  5455.       /* "DELIMIT # 0" is SYSOUT */

  5456.       My->SYSOUT->delimit = delimit;

  5457.       return (l);

  5458.     }

  5459.     /* normal file */

  5460.     My->CurrentFile = find_file_by_number (FileNumber);

  5461.     if (My->CurrentFile == NULL)

  5462.     {

  5463.       WARN_BAD_FILE_NUMBER;

  5464.       return (l);

  5465.     }

  5466.     My->CurrentFile->delimit = delimit;

  5467.     /* OK */

  5468.     return (l);

  5469.   }

  5470.   WARN_SYNTAX_ERROR;

  5471.   return (l);

  5472. }

  5473. 

  5474. /* 

  5475. --------------------------------------------------------------------------------------------

  5476.                                MARGIN

  5477. --------------------------------------------------------------------------------------------

  5478. */

  5479. LineType *

  5480. bwb_MARGIN (LineType * l)

  5481. {

  5482.   /*

  5483.      SYNTAX:     MARGIN # X, Y

  5484.    */

  5485.   /* set width for OUTPUT  */

  5486.   int FileNumber;

  5487.   int Value;

  5488.    

  5489.   assert (l != NULL);

  5490.   assert( My != NULL );

  5491.   assert( My->SYSIN != NULL );

  5492. 

  5493.   if (line_skip_FilenumChar (l))

  5494.   {

  5495.     /* MARGIN # */

  5496.     My->CurrentFile = My->SYSIN;

  5497. 

  5498.     if (line_read_integer_expression (l, &FileNumber) == FALSE)

  5499.     {

  5500.       WARN_BAD_FILE_NUMBER;

  5501.       return (l);

  5502.     }

  5503.     if (line_skip_seperator (l))

  5504.     {

  5505.       /* OK */

  5506.     }

  5507.     else

  5508.     {

  5509.       WARN_SYNTAX_ERROR;

  5510.       return (l);

  5511.     }

  5512.     if (line_read_integer_expression (l, &Value) == FALSE)

  5513.     {

  5514.       WARN_SYNTAX_ERROR;

  5515.       return (l);

  5516.     }

  5517.     if (Value < 0)

  5518.     {

  5519.       WARN_ILLEGAL_FUNCTION_CALL;

  5520.       return (l);

  5521.     }

  5522.     if (FileNumber < 0)

  5523.     {

  5524.       /* "MARGIN # -1" is SYSPRN */

  5525.       My->SYSPRN->width = Value;

  5526.       return (l);

  5527.     }

  5528.     if (FileNumber == 0)

  5529.     {

  5530.       /* "MARGIN # 0" is SYSOUT */

  5531.       My->SYSOUT->width = Value;

  5532.       return (l);

  5533.     }

  5534.     /* normal file */

  5535.     My->CurrentFile = find_file_by_number (FileNumber);

  5536.     if (My->CurrentFile == NULL)

  5537.     {

  5538.       WARN_BAD_FILE_NUMBER;

  5539.       return (l);

  5540.     }

  5541.     if ((My->CurrentFile->DevMode & DEVMODE_WRITE) == 0)

  5542.     {

  5543.       WARN_BAD_FILE_NUMBER;

  5544.       return (l);

  5545.     }

  5546.     My->CurrentFile->width = Value;

  5547.     /* OK */

  5548.     return (l);

  5549.   }

  5550.   WARN_SYNTAX_ERROR;

  5551.   return (l);

  5552. }

  5553. 

  5554. /* 

  5555. --------------------------------------------------------------------------------------------

  5556.                                USE

  5557. --------------------------------------------------------------------------------------------

  5558. */

  5559. 

  5560. LineType *

  5561. bwb_USE (LineType * l)

  5562. {

  5563.   /*

  5564.      SYNTAX:     USE parameter$ ' CALL/360, System/360, System/370

  5565.    */

  5566.   VariableType *v;

  5567.    

  5568.   assert (l != NULL);

  5569.   assert( My != NULL );

  5570. 

  5571.   if ((v = line_read_scalar (l)) == NULL)

  5572.   {

  5573.     WARN_SYNTAX_ERROR;

  5574.     return (l);

  5575.   }

  5576.   if (v->VariableTypeCode != StringTypeCode)

  5577.   {

  5578.     WARN_SYNTAX_ERROR;

  5579.     return (l);

  5580.   }

  5581.   /* OK */

  5582.   if (My->UseParameterString)

  5583.   {

  5584.     VariantType variant;

  5585.     CLEAR_VARIANT (&variant);

  5586. 

  5587.     variant.VariantTypeCode = StringTypeCode;

  5588.     variant.Buffer = My->UseParameterString;

  5589.     variant.Length = bwb_strlen (My->UseParameterString);

  5590.     var_set (v, &variant);

  5591.   }

  5592.   return (l);

  5593. }

  5594. 

  5595. /* 

  5596. --------------------------------------------------------------------------------------------

  5597.                                CHAIN

  5598. --------------------------------------------------------------------------------------------

  5599. */

  5600. 

  5601. LineType *

  5602. bwb_CHAIN (LineType * l)

  5603. {

  5604.   /*

  5605.      SYNTAX:     CHAIN file-name$ [, linenumber] ' most dialects

  5606.      SYNTAX:     CHAIN file-name$ [, parameter$] ' CALL/360, System/360, System/370

  5607.    */

  5608.   /* originally based upon bwb_load() */

  5609.   int LineNumber;

  5610.   LineType *x;

  5611.    

  5612.   assert (l != NULL);

  5613.   assert( My != NULL );

  5614.   assert( My->CurrentVersion != NULL );

  5615.   assert( My->StartMarker != NULL );

  5616.   assert( My->EndMarker != NULL );

  5617. 

  5618.   /* Get an argument for filename */

  5619.   if (line_is_eol (l))

  5620.   {

  5621.     WARN_BAD_FILE_NAME;

  5622.     return (l);

  5623.   }

  5624.   else

  5625.   {

  5626.     char *Value;

  5627. 

  5628.     Value = NULL;

  5629.     if (line_read_string_expression (l, &Value) == FALSE)

  5630.     {

  5631.       WARN_SYNTAX_ERROR;

  5632.       return (l);

  5633.     }

  5634.     if (is_empty_string (Value))

  5635.     {

  5636.       WARN_BAD_FILE_NAME;

  5637.       return (l);

  5638.     }

  5639.     if (My->ProgramFilename != NULL)

  5640.     {

  5641.       free (My->ProgramFilename);

  5642.       My->ProgramFilename = NULL;

  5643.     }

  5644.     My->ProgramFilename = Value;

  5645.   }

  5646.   /* optional linenumber */

  5647.   LineNumber = 0;

  5648.   if (line_skip_seperator (l))

  5649.   {

  5650.     if (My->CurrentVersion->OptionVersionValue & (S70 | I70 | I73))

  5651.     {

  5652.       /* CHAIN filename$, parameter$ */

  5653.       {

  5654.         char *Value;

  5655. 

  5656.         Value = NULL;

  5657.         if (line_read_string_expression (l, &Value) == FALSE)

  5658.         {

  5659.           WARN_SYNTAX_ERROR;

  5660.           return (l);

  5661.         }

  5662.         if (Value == NULL)

  5663.         {

  5664.           WARN_SYNTAX_ERROR;

  5665.           return (l);

  5666.         }

  5667.         if (My->UseParameterString)

  5668.         {

  5669.           free (My->UseParameterString);

  5670.           My->UseParameterString = NULL;

  5671.         }

  5672.         My->UseParameterString = Value;

  5673.       }

  5674.     }

  5675.     else

  5676.     {

  5677.       /* CHAIN filename$, linenumber */

  5678.       if (line_read_integer_expression (l, &LineNumber) == FALSE)

  5679.       {

  5680.         WARN_SYNTAX_ERROR;

  5681.         return (l);

  5682.       }

  5683.       if (LineNumber < MINLIN || LineNumber > MAXLIN)

  5684.       {

  5685.         WARN_UNDEFINED_LINE;

  5686.         return (l);

  5687.       }

  5688.     }

  5689.   }

  5690. 

  5691.   /* deallocate all variables except common ones */

  5692.   var_delcvars ();

  5693. 

  5694.   /* remove old program from memory */

  5695.   bwb_xnew (My->StartMarker);

  5696. 

  5697.   /* load new program in memory */

  5698.   if (bwb_fload (NULL) == FALSE)

  5699.   {

  5700.     WARN_BAD_FILE_NAME;

  5701.     return (l);

  5702.   }

  5703.   /* FIXME */

  5704.   x = My->StartMarker;

  5705.   if (MINLIN <= LineNumber && LineNumber <= MAXLIN)

  5706.   {

  5707.     /* search for a matching line number */

  5708.     while (x->number != LineNumber && x != My->EndMarker)

  5709.     {

  5710.       x = x->next;

  5711.     }

  5712.     if (x == My->EndMarker)

  5713.     {

  5714.       /* NOT FOUND */

  5715.       x = My->StartMarker;

  5716.     }

  5717.   }

  5718.   x->position = 0;

  5719.   /*

  5720.    **

  5721.    ** FORCE SCAN

  5722.    **

  5723.    */

  5724.   if (bwb_scan () == FALSE)

  5725.   {

  5726.     WARN_CANT_CONTINUE;

  5727.     return (l);

  5728.   }

  5729.   /* reset all stack counters */

  5730.   bwb_clrexec ();

  5731.   if (bwb_incexec ())

  5732.   {

  5733.     /* OK */

  5734.     My->StackHead->line = x;

  5735.     My->StackHead->ExecCode = EXEC_NORM;

  5736.   }

  5737.   else

  5738.   {

  5739.     /* ERROR */

  5740.     WARN_OUT_OF_MEMORY;

  5741.     return My->EndMarker;

  5742.   }

  5743. 

  5744.   /* run the program */

  5745. 

  5746.   /* CHAIN */

  5747.   WARN_CLEAR;                        /* bwb_CHAIN */

  5748.   My->ContinueLine = NULL;

  5749.   SetOnError (0);

  5750.   return x;

  5751. }

  5752. 

  5753. /* 

  5754. --------------------------------------------------------------------------------------------

  5755.                                APPEND

  5756. --------------------------------------------------------------------------------------------

  5757. */

  5758. LineType *

  5759. bwb_APPEND (LineType * l)

  5760. {

  5761.   /*

  5762.      SYNTAX:     APPEND # filenumber ' Dartmouth, Mark-I, Mark-II, GCOS

  5763.      SYNTAX:     APPEND  [filename$] ' all others

  5764.    */

  5765.    

  5766.   assert (l != NULL);

  5767.   assert( My != NULL );

  5768.   assert( My->CurrentVersion != NULL );

  5769. 

  5770.   if (My->CurrentVersion->OptionVersionValue & (D64 | G65 | G67 | G74))

  5771.   {

  5772.     if (line_skip_FilenumChar (l))

  5773.     {

  5774.       /* APPEND # filenumber */

  5775.       int FileNumber;

  5776. 

  5777.       if (line_read_integer_expression (l, &FileNumber) == FALSE)

  5778.       {

  5779.         WARN_SYNTAX_ERROR;

  5780.         return (l);

  5781.       }

  5782.       if (FileNumber < 0)

  5783.       {

  5784.         /* "APPEND # -1" is silently ignored */

  5785.         return (l);

  5786.       }

  5787.       if (FileNumber == 0)

  5788.       {

  5789.         /* "APPEND # 0" is silently ignored */

  5790.         return (l);

  5791.       }

  5792.       My->CurrentFile = find_file_by_number (FileNumber);

  5793.       if (My->CurrentFile == NULL)

  5794.       {

  5795.         WARN_BAD_FILE_NUMBER;

  5796.         return (l);

  5797.       }

  5798.       /* normal file */

  5799.       fseek (My->CurrentFile->cfp, 0, SEEK_END);

  5800.       My->CurrentFile->DevMode = DEVMODE_APPEND;

  5801.       /* OK */

  5802.       return (l);

  5803.     }

  5804.   }

  5805.   /* APPEND filename$ */

  5806.   return bwb_load (l, "APPEND FILE NAME:", FALSE);

  5807. }

  5808. 

  5809. 

  5810. 

  5811. /* 

  5812. --------------------------------------------------------------------------------------------

  5813.                                ON ERROR and so on

  5814. --------------------------------------------------------------------------------------------

  5815. */

  5816. 

  5817. extern void

  5818. SetOnError (int LineNumber)

  5819. {

  5820.   /* scan the stack looking for a FUNCTION/SUB */

  5821.   StackType *StackItem;

  5822.   assert( My != NULL );

  5823.    

  5824. 

  5825.   if (My->StackHead == NULL)

  5826.   {

  5827.     return;

  5828.   }

  5829. 

  5830.   for (StackItem = My->StackHead; StackItem->next != NULL;

  5831.        StackItem = StackItem->next)

  5832.   {

  5833.     LineType *current;

  5834. 

  5835.     current = StackItem->LoopTopLine;

  5836.     if (current != NULL)

  5837.     {

  5838.       switch (current->cmdnum)

  5839.       {

  5840.       case C_FUNCTION:

  5841.       case C_SUB:

  5842.         /* FOUND */

  5843.         /* we are in a FUNCTION/SUB, so this is LOCAL */

  5844.         StackItem->OnErrorGoto = LineNumber;

  5845.         return;

  5846.         /* break; */

  5847.       }

  5848.     }

  5849.   }

  5850.   /* StackItem->next == NULL */

  5851.   /* NOT FOUND */

  5852.   /* we are NOT in a FUNCTION/SUB  */

  5853.   assert (StackItem != NULL);

  5854.   StackItem->OnErrorGoto = LineNumber;

  5855. }

  5856. 

  5857. 

  5858. extern int

  5859. GetOnError (void)

  5860. {

  5861.   /* scan the stack looking for an active "ON ERROR GOTO linenumber" */

  5862.   StackType *StackItem;

  5863.   assert( My != NULL );

  5864.    

  5865. 

  5866.   for (StackItem = My->StackHead; StackItem != NULL;

  5867.        StackItem = StackItem->next)

  5868.   {

  5869.     if (StackItem->OnErrorGoto != 0)

  5870.     {

  5871.       /* FOUND */

  5872.       return StackItem->OnErrorGoto;

  5873.     }

  5874.   }

  5875.   /* NOT FOUND */

  5876.   return 0;

  5877. }

  5878. 

  5879. /* 

  5880. --------------------------------------------------------------------------------------------

  5881.                                ON ERROR

  5882. --------------------------------------------------------------------------------------------

  5883. */

  5884. LineType *

  5885. bwb_ON_ERROR (LineType * l)

  5886. {

  5887.    

  5888.   assert (l != NULL);

  5889.   WARN_SYNTAX_ERROR;

  5890.   return (l);

  5891. }

  5892. 

  5893. /* 

  5894. --------------------------------------------------------------------------------------------

  5895.                                ON ERROR GOTO

  5896. --------------------------------------------------------------------------------------------

  5897. */

  5898. LineType *

  5899. bwb_ON_ERROR_GOTO (LineType * l)

  5900. {

  5901.   /* ON ERROR GOTO line */

  5902.   int LineNumber;

  5903.    

  5904.   assert (l != NULL);

  5905. 

  5906.   WARN_CLEAR;                        /* bwb_ON_ERROR_GOTO */

  5907. 

  5908.   /* get the line number */

  5909.   LineNumber = 0;

  5910.   if (line_is_eol (l))

  5911.   {

  5912.     /* ON ERROR GOTO */

  5913.     SetOnError (0);

  5914.     return (l);

  5915.   }

  5916.   if (line_read_integer_expression (l, &LineNumber) == FALSE)

  5917.   {

  5918.     WARN_SYNTAX_ERROR;

  5919.     return (l);

  5920.   }

  5921.   /* ON ERORR GOTO linenumber */

  5922.   if (LineNumber == 0)

  5923.   {

  5924.     /* ON ERROR GOTO 0 */

  5925.     SetOnError (0);

  5926.     return (l);

  5927.   }

  5928.   if (LineNumber < MINLIN || LineNumber > MAXLIN)

  5929.   {

  5930.     /* ERROR */

  5931.     WARN_UNDEFINED_LINE;

  5932.     return (l);

  5933.   }

  5934.   /* OK */

  5935.   SetOnError (LineNumber);

  5936.   return (l);

  5937. }

  5938. 

  5939. /* 

  5940. --------------------------------------------------------------------------------------------

  5941.                                ON ERROR GOSUB

  5942. --------------------------------------------------------------------------------------------

  5943. */

  5944. LineType *

  5945. bwb_ON_ERROR_GOSUB (LineType * l)

  5946. {

  5947.   /* ON ERROR GOSUB line */

  5948.    

  5949.   assert (l != NULL);

  5950.   return bwb_ON_ERROR_GOTO (l);

  5951. }

  5952. 

  5953. /* 

  5954. --------------------------------------------------------------------------------------------

  5955.                                ON ERROR RESUME

  5956. --------------------------------------------------------------------------------------------

  5957. */

  5958. LineType *

  5959. bwb_ON_ERROR_RESUME (LineType * l)

  5960. {

  5961.    

  5962.   assert (l != NULL);

  5963.   WARN_SYNTAX_ERROR;

  5964.   return (l);

  5965. }

  5966. 

  5967. /* 

  5968. --------------------------------------------------------------------------------------------

  5969.                                ON ERROR RESUME NEXT

  5970. --------------------------------------------------------------------------------------------

  5971. */

  5972. LineType *

  5973. bwb_ON_ERROR_RESUME_NEXT (LineType * l)

  5974. {

  5975.    

  5976.   assert (l != NULL);

  5977.   WARN_CLEAR;                        /* bwb_ON_ERROR_RESUME_NEXT */

  5978.   SetOnError (-1);

  5979.   return (l);

  5980. }

  5981. 

  5982. /* 

  5983. --------------------------------------------------------------------------------------------

  5984.                                ON ERROR RETURN

  5985. --------------------------------------------------------------------------------------------

  5986. */

  5987. LineType *

  5988. bwb_ON_ERROR_RETURN (LineType * l)

  5989. {

  5990.    

  5991.   assert (l != NULL);

  5992.   WARN_SYNTAX_ERROR;

  5993.   return (l);

  5994. }

  5995. 

  5996. /* 

  5997. --------------------------------------------------------------------------------------------

  5998.                                ON ERROR RETURN NEXT

  5999. --------------------------------------------------------------------------------------------

  6000. */

  6001. LineType *

  6002. bwb_ON_ERROR_RETURN_NEXT (LineType * l)

  6003. {

  6004.    

  6005.   assert (l != NULL);

  6006.   return bwb_ON_ERROR_RESUME_NEXT (l);

  6007. }

  6008. 

  6009. /* 

  6010. --------------------------------------------------------------------------------------------

  6011.                                ON TIMER

  6012. --------------------------------------------------------------------------------------------

  6013. */

  6014. LineType *

  6015. bwb_ON_TIMER (LineType * l)

  6016. {

  6017.   /* ON TIMER(...) GOSUB ... */

  6018.   DoubleType v;

  6019.   DoubleType minv;

  6020.   int LineNumber;

  6021.    

  6022.   assert (l != NULL);

  6023.   assert( My != NULL );

  6024. 

  6025.   My->IsTimerOn = FALSE;        /* bwb_ON_TIMER */

  6026.   My->OnTimerLineNumber = 0;

  6027.   My->OnTimerCount = 0;

  6028. 

  6029. 

  6030.   /* get the SECOMDS parameter */

  6031.   if (line_read_numeric_expression (l, &v) == FALSE)

  6032.   {

  6033.     WARN_SYNTAX_ERROR;

  6034.     return (l);

  6035.   }

  6036. 

  6037.   minv = 1;

  6038.   assert (CLOCKS_PER_SEC > 0);

  6039.   minv /= CLOCKS_PER_SEC;

  6040.   if (v < minv)

  6041.   {

  6042.     /* ERROR */

  6043.     WARN_ILLEGAL_FUNCTION_CALL;

  6044.     return (l);

  6045.   }

  6046. 

  6047.   /* get the GOSUB keyword */

  6048.   if (line_skip_word (l, "GOSUB") == FALSE)

  6049.   {

  6050.     WARN_SYNTAX_ERROR;

  6051.     return (l);

  6052.   }

  6053.   /* ON TIMER(X) GOSUB line */

  6054.   if (line_read_integer_expression (l, &LineNumber) == FALSE)

  6055.   {

  6056.     WARN_SYNTAX_ERROR;

  6057.     return (l);

  6058.   }

  6059.   if (LineNumber < MINLIN || LineNumber > MAXLIN)

  6060.   {

  6061.     /* ERROR */

  6062.     WARN_UNDEFINED_LINE;

  6063.     return (l);

  6064.   }

  6065.   /* OK */

  6066.   My->OnTimerLineNumber = LineNumber;

  6067.   My->OnTimerCount = v;

  6068.   return (l);

  6069. }

  6070. 

  6071. 

  6072. /* 

  6073. --------------------------------------------------------------------------------------------

  6074.                                TIMER

  6075. --------------------------------------------------------------------------------------------

  6076. */

  6077. LineType *

  6078. bwb_TIMER (LineType * l)

  6079. {

  6080.    

  6081.   assert (l != NULL);

  6082.   assert( My != NULL );

  6083. 

  6084.   My->IsTimerOn = FALSE;        /* bwb_TIMER */

  6085.   WARN_SYNTAX_ERROR;

  6086.   return (l);

  6087. }

  6088. 

  6089. /* 

  6090. --------------------------------------------------------------------------------------------

  6091.                                TIMER OFF

  6092. --------------------------------------------------------------------------------------------

  6093. */

  6094. LineType *

  6095. bwb_TIMER_OFF (LineType * l)

  6096. {

  6097.    

  6098.   assert (l != NULL);

  6099.   assert( My != NULL );

  6100. 

  6101.   /* TIMER OFF */

  6102.   My->IsTimerOn = FALSE;        /* bwb_TIMER_OFF */

  6103.   My->OnTimerLineNumber = 0;

  6104.   My->OnTimerCount = 0;

  6105.   return (l);

  6106. }

  6107. 

  6108. /* 

  6109. --------------------------------------------------------------------------------------------

  6110.                                TIMER ON

  6111. --------------------------------------------------------------------------------------------

  6112. */

  6113. LineType *

  6114. bwb_TIMER_ON (LineType * l)

  6115. {

  6116.    

  6117.   assert (l != NULL);

  6118.   assert( My != NULL );

  6119. 

  6120.   My->IsTimerOn = FALSE;        /* bwb_TIMER_ON */

  6121.   /* TIMER ON */

  6122.   if (My->OnTimerCount > 0 && My->OnTimerLineNumber > 0)

  6123.   {

  6124.     My->OnTimerExpires = bwx_TIMER (My->OnTimerCount);

  6125.     My->IsTimerOn = TRUE;        /* bwb_TIMER_ON */

  6126.   }

  6127.   return (l);

  6128. }

  6129. 

  6130. /* 

  6131. --------------------------------------------------------------------------------------------

  6132.                                TIMER STOP

  6133. --------------------------------------------------------------------------------------------

  6134. */

  6135. LineType *

  6136. bwb_TIMER_STOP (LineType * l)

  6137. {

  6138.    

  6139.   assert (l != NULL);

  6140.   assert( My != NULL );

  6141. 

  6142.   My->IsTimerOn = FALSE;        /* bwb_TIMER_STOP */

  6143. 

  6144.   return (l);

  6145. }

  6146. 

  6147. /* 

  6148. --------------------------------------------------------------------------------------------

  6149.                                RESUME

  6150. --------------------------------------------------------------------------------------------

  6151. */

  6152. LineType *

  6153. bwb_RESUME (LineType * l)

  6154. {

  6155.   int LineNumber;

  6156.   LineType *x;

  6157.    

  6158.   assert (l != NULL);

  6159.   assert( My != NULL );

  6160. 

  6161.   LineNumber = 0;

  6162.   x = My->ERL;                        /* bwb_RESUME */

  6163.   WARN_CLEAR;                        /* bwb_RESUME */

  6164. 

  6165.   if (l->LineFlags & (LINE_USER))

  6166.   {

  6167.     WARN_ILLEGAL_DIRECT;

  6168.     return (l);

  6169.   }

  6170. 

  6171.   if (x == NULL)

  6172.   {

  6173.     WARN_RESUME_WITHOUT_ERROR;

  6174.     return (l);

  6175.   }

  6176.   /* Get optional argument for RESUME */

  6177.   if (line_is_eol (l))

  6178.   {

  6179.     /* RESUME */

  6180.     /* 

  6181.        Execution resumes at the statement which caused the error 

  6182.        For structured commands, this is the top line of the structure.

  6183.      */

  6184.     x->position = 0;

  6185.     return x;

  6186.   }

  6187.   if (line_skip_word (l, "NEXT"))

  6188.   {

  6189.     /* RESUME NEXT */

  6190.     /* 

  6191.        Execution resumes at the statement immediately following the one which caused the error. 

  6192.        For structured commands, this is the bottom line of the structure.

  6193.      */

  6194.     switch (x->cmdnum)

  6195.     {

  6196.     case C_IF8THEN:

  6197.       /* skip to END_IF */

  6198.       assert (x->OtherLine != NULL);

  6199.       for (x = x->OtherLine; x->cmdnum != C_END_IF; x = x->OtherLine);

  6200.       break;

  6201.     case C_SELECT_CASE:

  6202.       /* skip to END_SELECT */

  6203.       assert (x->OtherLine != NULL);

  6204.       for (x = x->OtherLine; x->cmdnum != C_END_SELECT; x = x->OtherLine);

  6205.       break;

  6206.     default:

  6207.       x = x->next;

  6208.     }

  6209.     x->position = 0;

  6210.     return x;

  6211.   }

  6212.   /* RESUME ### */

  6213.   if (line_read_integer_expression (l, &LineNumber) == FALSE)

  6214.   {

  6215.     WARN_SYNTAX_ERROR;

  6216.     return (l);

  6217.   }

  6218.   if (LineNumber == 0)

  6219.   {

  6220.     /* SPECIAL CASE */

  6221.     /* RESUME 0 */

  6222.     /* Execution resumes at the statement which caused the error */

  6223.     x->position = 0;

  6224.     return x;

  6225.   }

  6226.   /* VERIFY LINE EXISTS */

  6227.   x = find_line_number (LineNumber);        /* RESUME 100 */

  6228.   if (x != NULL)

  6229.   {

  6230.     /* FOUND */

  6231.     x->position = 0;

  6232.     return x;

  6233.   }

  6234.   /* NOT FOUND */

  6235.   WARN_UNDEFINED_LINE;

  6236.   return (l);

  6237. }

  6238. 

  6239. /* 

  6240. --------------------------------------------------------------------------------------------

  6241.                               CMDS

  6242. --------------------------------------------------------------------------------------------

  6243. */

  6244. LineType *

  6245. bwb_CMDS (LineType * l)

  6246. {

  6247.   int n;

  6248.   int t;

  6249.    

  6250.   assert (l != NULL);

  6251.   assert( My != NULL );

  6252.   assert( My->SYSOUT != NULL );

  6253.   assert( My->SYSOUT->cfp != NULL );

  6254. 

  6255.   My->CurrentFile = My->SYSOUT;

  6256.   fprintf (My->SYSOUT->cfp, "BWBASIC COMMANDS AVAILABLE:\n");

  6257. 

  6258.   /* run through the command table and print comand names */

  6259. 

  6260.   t = 0;

  6261.   for (n = 0; n < NUM_COMMANDS; n++)

  6262.   {

  6263.     fprintf (My->SYSOUT->cfp, IntrinsicCommandTable[n].name);

  6264.     if (t < 4)

  6265.     {

  6266.       fprintf (My->SYSOUT->cfp, "\t");

  6267.       t++;

  6268.     }

  6269.     else

  6270.     {

  6271.       fprintf (My->SYSOUT->cfp, "\n");

  6272.       t = 0;

  6273.     }

  6274.   }

  6275.   if (t > 0)

  6276.   {

  6277.     fprintf (My->SYSOUT->cfp, "\n");

  6278.   }

  6279.   ResetConsoleColumn ();

  6280.   return (l);

  6281. }

  6282. 

  6283. static void

  6284. FixUp (char *Name)

  6285. {

  6286.   char *C;

  6287.    

  6288.   assert (Name != NULL);

  6289. 

  6290.   C = Name;

  6291.   while (*C)

  6292.   {

  6293.     if (bwb_isalnum (*C))

  6294.     {

  6295.       /* OK */

  6296.     }

  6297.     else

  6298.     {

  6299.       /* FIX */

  6300.       switch (*C)

  6301.       {

  6302.       case '!':

  6303.         *C = '1';

  6304.         break;

  6305.       case '@':

  6306.         *C = '2';

  6307.         break;

  6308.       case '#':

  6309.         *C = '3';

  6310.         break;

  6311.       case '$':

  6312.         *C = '4';

  6313.         break;

  6314.       case '%':

  6315.         *C = '5';

  6316.         break;

  6317.       case '^':

  6318.         *C = '6';

  6319.         break;

  6320.       case '&':

  6321.         *C = '7';

  6322.         break;

  6323.       case '*':

  6324.         *C = '8';

  6325.         break;

  6326.       case '(':

  6327.         *C = '9';

  6328.         break;

  6329.       case ')':

  6330.         *C = '0';

  6331.         break;

  6332.       default:

  6333.         *C = '_';

  6334.       }

  6335.     }

  6336.     C++;

  6337.   }

  6338. }

  6339. 

  6340. 

  6341. static void

  6342. CommandUniqueID (int i, char *UniqueID)

  6343. {

  6344.    

  6345.   assert (UniqueID != NULL);

  6346. 

  6347.   bwb_strcpy (UniqueID, "C_");

  6348.   bwb_strcat (UniqueID, IntrinsicCommandTable[i].name);

  6349.   FixUp (UniqueID);

  6350. }

  6351. 

  6352. static void

  6353. CommandVector (int i, char *Vector)

  6354. {

  6355.    

  6356.   assert (Vector != NULL);

  6357. 

  6358.   bwb_strcpy (Vector, "bwb_");

  6359.   bwb_strcat (Vector, IntrinsicCommandTable[i].name);

  6360.   FixUp (Vector);

  6361. }

  6362. 

  6363. static void

  6364. CommandOptionVersion (int n, char *OutputLine)

  6365. {

  6366.   int i;

  6367.   int j;

  6368.    

  6369.   assert (OutputLine != NULL);

  6370. 

  6371.   bwb_strcpy (OutputLine, "");

  6372.   j = 0;

  6373.   for (i = 0; i < NUM_VERSIONS; i++)

  6374.   {

  6375.     if (IntrinsicCommandTable[n].OptionVersionBitmask & bwb_vertable[i].

  6376.         OptionVersionValue)

  6377.     {

  6378.       if (j > 0)

  6379.       {

  6380.         bwb_strcat (OutputLine, " | ");

  6381.       }

  6382.       bwb_strcat (OutputLine, bwb_vertable[i].ID);

  6383.       j++;

  6384.     }

  6385.   }

  6386. }

  6387. 

  6388. 

  6389. void

  6390. SortAllCommands (void)

  6391. {

  6392.   /* sort by name */

  6393.   int i;

  6394.   assert( My != NULL );

  6395.    

  6396. 

  6397.   for (i = 0; i < NUM_COMMANDS - 1; i++)

  6398.   {

  6399.     int j;

  6400.     int k;

  6401.     k = i;

  6402.     for (j = i + 1; j < NUM_COMMANDS; j++)

  6403.     {

  6404.       if (bwb_stricmp

  6405.           (IntrinsicCommandTable[j].name, IntrinsicCommandTable[k].name) < 0)

  6406.       {

  6407.         k = j;

  6408.       }

  6409.     }

  6410.     if (k > i)

  6411.     {

  6412.       CommandType t;

  6413.       bwb_memcpy (&t, &(IntrinsicCommandTable[i]), sizeof (CommandType));

  6414.       bwb_memcpy (&(IntrinsicCommandTable[i]), &(IntrinsicCommandTable[k]),

  6415.                   sizeof (CommandType));

  6416.       bwb_memcpy (&(IntrinsicCommandTable[k]), &t, sizeof (CommandType));

  6417.     }

  6418.   }

  6419. #if THE_PRICE_IS_RIGHT

  6420.   for (i = 0; i < 26; i++)

  6421.   {

  6422.     My->CommandStart[i] = -1;

  6423.   }

  6424.   for (i = 0; i < NUM_COMMANDS; i++)

  6425.   {

  6426.     int j;

  6427.     j = VarTypeIndex (IntrinsicCommandTable[i].name[0]);

  6428.     if (j < 0)

  6429.     {

  6430.       /* non-alpha */

  6431.     }

  6432.     else if (My->CommandStart[j] < 0)

  6433.     {

  6434.       /* this is the first command starting with this letter */

  6435.       My->CommandStart[j] = i;

  6436.     }

  6437.   }

  6438. #endif /* THE_PRICE_IS_RIGHT */

  6439. }

  6440. 

  6441. void

  6442. SortAllFunctions (void)

  6443. {

  6444.   /* sort by name then number of parameters */

  6445.   int i;

  6446.   assert( My != NULL );

  6447.    

  6448. 

  6449.   for (i = 0; i < NUM_FUNCTIONS - 1; i++)

  6450.   {

  6451.     int j;

  6452.     int k;

  6453.     k = i;

  6454.     for (j = i + 1; j < NUM_FUNCTIONS; j++)

  6455.     {

  6456.       int n;

  6457.       n =

  6458.         bwb_stricmp (IntrinsicFunctionTable[j].Name,

  6459.                      IntrinsicFunctionTable[k].Name);

  6460.       if (n < 0)

  6461.       {

  6462.         k = j;

  6463.       }

  6464.       else if (n == 0)

  6465.       {

  6466.         if (IntrinsicFunctionTable[j].ParameterCount <

  6467.             IntrinsicFunctionTable[k].ParameterCount)

  6468.         {

  6469.           k = j;

  6470.         }

  6471.       }

  6472.     }

  6473.     if (k > i)

  6474.     {

  6475.       IntrinsicFunctionType t;

  6476.       bwb_memcpy (&t, &(IntrinsicFunctionTable[i]),

  6477.                   sizeof (IntrinsicFunctionType));

  6478.       bwb_memcpy (&(IntrinsicFunctionTable[i]), &(IntrinsicFunctionTable[k]),

  6479.                   sizeof (IntrinsicFunctionType));

  6480.       bwb_memcpy (&(IntrinsicFunctionTable[k]), &t,

  6481.                   sizeof (IntrinsicFunctionType));

  6482.     }

  6483.   }

  6484. #if THE_PRICE_IS_RIGHT

  6485.   for (i = 0; i < 26; i++)

  6486.   {

  6487.     My->IntrinsicFunctionStart[i] = -1;

  6488.   }

  6489.   for (i = 0; i < NUM_FUNCTIONS; i++)

  6490.   {

  6491.     int j;

  6492.     j = VarTypeIndex (IntrinsicFunctionTable[i].Name[0]);

  6493.     if (j < 0)

  6494.     {

  6495.       /* non-alpha */

  6496.     }

  6497.     else if (My->IntrinsicFunctionStart[j] < 0)

  6498.     {

  6499.       /* this is the first command starting with this letter */

  6500.       My->IntrinsicFunctionStart[j] = i;

  6501.     }

  6502.   }

  6503. #endif /* THE_PRICE_IS_RIGHT */

  6504. }

  6505. 

  6506. 

  6507. void

  6508. DumpAllCommandUniqueID (FILE * file)

  6509. {

  6510.   int i;

  6511.   int j;

  6512.   char LastUniqueID[NameLengthMax + 1];

  6513.    

  6514.   assert (file != NULL);

  6515. 

  6516.   j = 0;

  6517.   LastUniqueID[0] = NulChar;

  6518. 

  6519.   fprintf (file, "/* COMMANDS */\n");

  6520. 

  6521.   /* run through the command table and print comand #define */

  6522. 

  6523.   for (i = 0; i < NUM_COMMANDS; i++)

  6524.   {

  6525.     char UniqueID[NameLengthMax + 1];

  6526. 

  6527.     CommandUniqueID (i, UniqueID);

  6528.     if (bwb_stricmp (LastUniqueID, UniqueID) != 0)

  6529.     {

  6530.       /* not a duplicate */

  6531.       bwb_strcpy (LastUniqueID, UniqueID);

  6532.       j = j + 1;

  6533.       fprintf (file, "#define %-30s %3d /* %-30s */\n", UniqueID, j,

  6534.                IntrinsicCommandTable[i].name);

  6535.     }

  6536.   }

  6537.   fprintf (file, "#define NUM_COMMANDS %d\n", j);

  6538.   fflush (file);

  6539. }

  6540. 

  6541. static void

  6542. ProcessEscapeChars (const char *Input, char *Output)

  6543. {

  6544.   int n;

  6545.    

  6546.   assert (Input != NULL);

  6547.   assert (Output != NULL);

  6548. 

  6549.   n = 0;

  6550. 

  6551.   while (*Input)

  6552.   {

  6553.     /* \a  \b  \f  \n  \r  \t  \v \" \\ */

  6554.     switch (*Input)

  6555.     {

  6556.     case '\a':

  6557.       *Output = '\\';

  6558.       Output++;

  6559.       *Output = 'a';

  6560.       Output++;

  6561.       break;

  6562.     case '\b':

  6563.       *Output = '\\';

  6564.       Output++;

  6565.       *Output = 'b';

  6566.       Output++;

  6567.       break;

  6568.     case '\f':

  6569.       *Output = '\\';

  6570.       Output++;

  6571.       *Output = 'f';

  6572.       Output++;

  6573.       break;

  6574.     case '\n':

  6575.       *Output = '\\';

  6576.       Output++;

  6577.       *Output = 'n';

  6578.       Output++;

  6579.       break;

  6580.     case '\r':

  6581.       *Output = '\\';

  6582.       Output++;

  6583.       *Output = 'r';

  6584.       Output++;

  6585.       break;

  6586.     case '\t':

  6587.       *Output = '\\';

  6588.       Output++;

  6589.       *Output = 't';

  6590.       Output++;

  6591.       break;

  6592.     case '\v':

  6593.       *Output = '\\';

  6594.       Output++;

  6595.       *Output = 'n';

  6596.       Output++;

  6597.       break;

  6598.     case '\"':

  6599.       *Output = '\\';

  6600.       Output++;

  6601.       *Output = '"';

  6602.       Output++;

  6603.       break;

  6604.     case '\\':

  6605.       *Output = '\\';

  6606.       Output++;

  6607.       *Output = '\\';

  6608.       Output++;

  6609.       break;

  6610.     default:

  6611.       *Output = *Input;

  6612.       Output++;

  6613.       break;

  6614.     }

  6615.     *Output = NulChar;

  6616.     n++;

  6617.     if (n > 60 && *Input == ' ')

  6618.     {

  6619.       *Output = '\"';

  6620.       Output++;

  6621.       *Output = '\n';

  6622.       Output++;

  6623.       *Output = ' ';

  6624.       Output++;

  6625.       *Output = ' ';

  6626.       Output++;

  6627.       *Output = '\"';

  6628.       Output++;

  6629.       *Output = NulChar;

  6630.       n = 0;

  6631.     }

  6632.     Input++;

  6633.   }

  6634. }

  6635. 

  6636. void

  6637. DumpAllCommandTableDefinitions (FILE * file)

  6638. {

  6639.   /* generate bwd_cmd.c */

  6640. 

  6641.   int i;

  6642.    

  6643.   assert (file != NULL);

  6644. 

  6645.   fprintf (file, "/* COMMAND TABLE */\n\n");

  6646.   fprintf (file, "#include \"bwbasic.h\"\n\n");

  6647.   fprintf (file,

  6648.            "CommandType IntrinsicCommandTable[ /* NUM_COMMANDS */ ] =\n");

  6649.   fprintf (file, "{\n");

  6650. 

  6651.   /* run through the command table and print comand #define */

  6652. 

  6653.   for (i = 0; i < NUM_COMMANDS; i++)

  6654.   {

  6655.     char tbuf[MAINTAINER_BUFFER_LENGTH + 1];        /* DumpAllCommandTableDefinitions */

  6656. 

  6657. 

  6658.     fprintf (file, "{\n");

  6659. 

  6660.     fprintf (file, "  ");

  6661.     CommandUniqueID (i, tbuf);

  6662.     fprintf (file, tbuf);

  6663.     fprintf (file, ",  /* UniqueID */\n");

  6664. 

  6665.     fprintf (file, "  ");

  6666.     fprintf (file, "\"");

  6667.     ProcessEscapeChars (IntrinsicCommandTable[i].Syntax, tbuf);

  6668.     fprintf (file, tbuf);

  6669.     fprintf (file, "\"");

  6670.     fprintf (file, ",  /* Syntax */\n");

  6671. 

  6672.     fprintf (file, "  ");

  6673.     fprintf (file, "\"");

  6674.     ProcessEscapeChars (IntrinsicCommandTable[i].Description, tbuf);

  6675.     fprintf (file, tbuf);

  6676.     fprintf (file, "\"");

  6677.     fprintf (file, ",  /* Description */\n");

  6678. 

  6679.     fprintf (file, "  ");

  6680.     fprintf (file, "\"");

  6681.     fprintf (file, IntrinsicCommandTable[i].name);

  6682.     fprintf (file, "\"");

  6683.     fprintf (file, ",  /* Name */\n");

  6684. 

  6685.     fprintf (file, "  ");

  6686.     CommandOptionVersion (i, tbuf);

  6687.     fprintf (file, tbuf);

  6688.     fprintf (file, "  /* OptionVersionBitmask */\n");

  6689. 

  6690.     fprintf (file, "},\n");

  6691.   }

  6692.   fprintf (file, "};\n");

  6693.   fprintf (file, "\n");

  6694.   fprintf (file,

  6695.            "const size_t NUM_COMMANDS = sizeof( IntrinsicCommandTable ) / sizeof( CommandType );\n");

  6696.   fprintf (file, "\n");

  6697.   fflush (file);

  6698. }

  6699. 

  6700. void

  6701. DumpAllCommandSwitchStatement (FILE * file)

  6702. {

  6703.   int i;

  6704.   char LastUniqueID[NameLengthMax + 1];

  6705.    

  6706.   assert (file != NULL);

  6707. 

  6708.   LastUniqueID[0] = NulChar;

  6709. 

  6710.   /* run through the command table and print comand #define */

  6711.   fprintf (file, "/* SWITCH */\n");

  6712.   fprintf (file, "LineType *bwb_vector( LineType *l )\n");

  6713.   fprintf (file, "{\n");

  6714. 

  6715.   fprintf (file, "   ");

  6716.   fprintf (file, "LineType *r;\n");

  6717. 

  6718.   fprintf (file, "   ");

  6719.   fprintf (file, "switch( l->cmdnum )\n");

  6720. 

  6721.   fprintf (file, "   ");

  6722.   fprintf (file, "{\n");

  6723. 

  6724.   for (i = 0; i < NUM_COMMANDS; i++)

  6725.   {

  6726.     char tbuf[NameLengthMax + 1];

  6727. 

  6728.     CommandUniqueID (i, tbuf);

  6729.     if (bwb_stricmp (LastUniqueID, tbuf) != 0)

  6730.     {

  6731.       /* not a duplicate */

  6732.       bwb_strcpy (LastUniqueID, tbuf);

  6733. 

  6734.       fprintf (file, "   ");

  6735.       fprintf (file, "case ");

  6736.       CommandUniqueID (i, tbuf);

  6737.       fprintf (file, tbuf);

  6738.       fprintf (file, ":\n");

  6739. 

  6740.       fprintf (file, "   ");

  6741.       fprintf (file, "   ");

  6742.       fprintf (file, "r = ");

  6743.       CommandVector (i, tbuf);

  6744.       fprintf (file, tbuf);

  6745.       fprintf (file, "( l );\n");

  6746. 

  6747.       fprintf (file, "   ");

  6748.       fprintf (file, "   ");

  6749.       fprintf (file, "break;\n");

  6750.     }

  6751.   }

  6752. 

  6753.   fprintf (file, "   ");

  6754.   fprintf (file, "default:\n");

  6755. 

  6756.   fprintf (file, "   ");

  6757.   fprintf (file, "   ");

  6758.   fprintf (file, "WARN_INTERNAL_ERROR;\n");

  6759. 

  6760.   fprintf (file, "   ");

  6761.   fprintf (file, "   ");

  6762.   fprintf (file, "r = l;\n");

  6763. 

  6764.   fprintf (file, "   ");

  6765.   fprintf (file, "   ");

  6766.   fprintf (file, "break;\n");

  6767. 

  6768. 

  6769.   fprintf (file, "   ");

  6770.   fprintf (file, "}\n");

  6771. 

  6772.   fprintf (file, "   ");

  6773.   fprintf (file, "return r;\n");

  6774. 

  6775.   fprintf (file, "}\n");

  6776. 

  6777.   fflush (file);

  6778. }

  6779. 

  6780. void

  6781. FixDescription (FILE * file, const char *left, const char *right)

  6782. {

  6783.   char buffer[MAINTAINER_BUFFER_LENGTH + 1];        /* FixDescription */

  6784.   int l;                        /* length of left side */

  6785.   int p;                        /* current position */

  6786.   int n;                        /* position of the last space character, zero means none yet seen */

  6787.   int i;                        /* number of characters since last '\n' */

  6788.    

  6789.   assert (left != NULL);

  6790.   assert (right != NULL);

  6791. 

  6792.   l = bwb_strlen (left);

  6793.   p = 0;

  6794.   n = 0;

  6795.   i = 0;

  6796.   bwb_strcpy (buffer, right);

  6797. 

  6798.   while (buffer[p])

  6799.   {

  6800.     if (buffer[p] == '\n')

  6801.     {

  6802.       n = p;

  6803.       i = 0;

  6804.     }

  6805.     if (buffer[p] == ' ')

  6806.     {

  6807.       n = p;

  6808.     }

  6809.     if (i > 45 && n > 0)

  6810.     {

  6811.       buffer[n] = '\n';

  6812.       i = p - n;

  6813.     }

  6814.     p++;

  6815.     i++;

  6816.   }

  6817.   fputs (left, file);

  6818.   p = 0;

  6819.   while (buffer[p])

  6820.   {

  6821.     if (buffer[p] == '\n')

  6822.     {

  6823.       fputc (buffer[p], file);

  6824.       p++;

  6825.       while (buffer[p] == ' ')

  6826.       {

  6827.         p++;

  6828.       }

  6829.       for (i = 0; i < l; i++)

  6830.       {

  6831.         fputc (' ', file);

  6832.       }

  6833.     }

  6834.     else

  6835.     {

  6836.       fputc (buffer[p], file);

  6837.       p++;

  6838.     }

  6839.   }

  6840.   fputc ('\n', file);

  6841. 

  6842. }

  6843. 

  6844. void

  6845. DumpOneCommandSyntax (FILE * file, int IsXref, int n)

  6846. {

  6847.    

  6848.   assert (file != NULL);

  6849. 

  6850.   if (n < 0 || n >= NUM_COMMANDS)

  6851.   {

  6852.     return;

  6853.   }

  6854.   /* NAME */

  6855.   {

  6856.     FixDescription (file, "     SYNTAX: ", IntrinsicCommandTable[n].Syntax);

  6857.   }

  6858.   /* DESCRIPTION */

  6859.   {

  6860.     FixDescription (file, "DESCRIPTION: ",

  6861.                     IntrinsicCommandTable[n].Description);

  6862.   }

  6863.   /* COMPATIBILITY */

  6864.   if (IsXref)

  6865.   {

  6866.     int i;

  6867.     fprintf (file, "   VERSIONS:\n");

  6868.     for (i = 0; i < NUM_VERSIONS; i++)

  6869.     {

  6870.       char X;

  6871.       if (IntrinsicCommandTable[n].OptionVersionBitmask & bwb_vertable[i].

  6872.           OptionVersionValue)

  6873.       {

  6874.         /* SUPPORTED */

  6875.         X = 'X';

  6876.       }

  6877.       else

  6878.       {

  6879.         /* NOT SUPPORTED */

  6880.         X = '_';

  6881.       }

  6882.       fprintf (file, "             [%c] %s\n", X, bwb_vertable[i].Name);

  6883.     }

  6884.   }

  6885. 

  6886.   fflush (file);

  6887. }

  6888. 

  6889. void

  6890. DumpAllCommandSyntax (FILE * file, int IsXref,

  6891.                       OptionVersionType OptionVersionValue)

  6892. {

  6893.   /* for the C maintainer */

  6894.   int i;

  6895.    

  6896.   assert (file != NULL);

  6897. 

  6898.   fprintf (file,

  6899.            "============================================================\n");

  6900.   fprintf (file,

  6901.            "                    COMMANDS                                \n");

  6902.   fprintf (file,

  6903.            "============================================================\n");

  6904.   fprintf (file, "\n");

  6905.   fprintf (file, "\n");

  6906.   for (i = 0; i < NUM_COMMANDS; i++)

  6907.   {

  6908.     if (IntrinsicCommandTable[i].OptionVersionBitmask & OptionVersionValue)

  6909.     {

  6910.       fprintf (file,

  6911.                "------------------------------------------------------------\n");

  6912.       DumpOneCommandSyntax (file, IsXref, i);

  6913.     }

  6914. 

  6915.   }

  6916.   fprintf (file,

  6917.            "------------------------------------------------------------\n");

  6918. 

  6919. 

  6920.   fprintf (file, "\n");

  6921.   fprintf (file, "\n");

  6922.   fflush (file);

  6923. }

  6924. 

  6925. 

  6926. void

  6927. DumpAllCommandHtmlTable (FILE * file)

  6928. {

  6929.   /* generate bwd_cmd.htm */

  6930. 

  6931.   int i;

  6932.   int j;

  6933.    

  6934.   assert (file != NULL);

  6935. 

  6936. 

  6937.   /* LEGEND */

  6938.   fprintf (file, "<html><head><title>CMDS</title></head><body>\n");

  6939.   fprintf (file, "<h1>LEGEND</h1><br>\n");

  6940.   fprintf (file, "<table>\n");

  6941. 

  6942.   fprintf (file, "<tr>");

  6943.   fprintf (file, "<td>");

  6944.   fprintf (file, "<b>");

  6945.   fprintf (file, "ID");

  6946.   fprintf (file, "</b>");

  6947.   fprintf (file, "</td>");

  6948.   fprintf (file, "<td>");

  6949.   fprintf (file, "<b>");

  6950.   fprintf (file, "NAME");

  6951.   fprintf (file, "</b>");

  6952.   fprintf (file, "</td>");

  6953.   fprintf (file, "<td>");

  6954.   fprintf (file, "<b>");

  6955.   fprintf (file, "DESCRIPTION");

  6956.   fprintf (file, "</b>");

  6957.   fprintf (file, "</td>");

  6958.   fprintf (file, "</tr>\n");

  6959. 

  6960.   for (j = 0; j < NUM_VERSIONS; j++)

  6961.   {

  6962.     fprintf (file, "<tr>");

  6963.     fprintf (file, "<td>");

  6964.     fprintf (file, bwb_vertable[j].ID);

  6965.     fprintf (file, "</td>");

  6966.     fprintf (file, "<td>");

  6967.     fprintf (file, bwb_vertable[j].Name);

  6968.     fprintf (file, "</td>");

  6969.     fprintf (file, "<td>");

  6970.     fprintf (file, bwb_vertable[j].Description);

  6971.     fprintf (file, "</td>");

  6972.     fprintf (file, "</tr>\n");

  6973.   }

  6974.   fprintf (file, "</table>\n");

  6975.   fprintf (file, "<hr>\n");

  6976. 

  6977. 

  6978.   /* DETAILS */

  6979.   fprintf (file, "<h1>DETAILS</h1><br>\n");

  6980.   fprintf (file, "<table>\n");

  6981. 

  6982.   fprintf (file, "<tr>");

  6983.   fprintf (file, "<td>");

  6984.   fprintf (file, "<b>");

  6985.   fprintf (file, "COMMAND");

  6986.   fprintf (file, "</b>");

  6987.   fprintf (file, "</td>");

  6988.   for (j = 0; j < NUM_VERSIONS; j++)

  6989.   {

  6990.     fprintf (file, "<td>");

  6991.     fprintf (file, "<b>");

  6992.     fprintf (file, bwb_vertable[j].ID);

  6993.     fprintf (file, "</b>");

  6994.     fprintf (file, "</td>");

  6995.   }

  6996.   fprintf (file, "</tr>\n");

  6997. 

  6998. 

  6999.   /* run through the command table and print comand -vs- OPTION VERSION */

  7000. 

  7001.   for (i = 0; i < NUM_COMMANDS; i++)

  7002.   {

  7003.     fprintf (file, "<tr>");

  7004.     fprintf (file, "<td>");

  7005.     fprintf (file, (char *) IntrinsicCommandTable[i].Syntax);

  7006.     fprintf (file, "</td>");

  7007. 

  7008.     for (j = 0; j < NUM_VERSIONS; j++)

  7009.     {

  7010.       fprintf (file, "<td>");

  7011.       if (IntrinsicCommandTable[i].OptionVersionBitmask & bwb_vertable[j].

  7012.           OptionVersionValue)

  7013.       {

  7014.         fprintf (file, "X");

  7015.       }

  7016.       else

  7017.       {

  7018.         fprintf (file, " ");

  7019.       }

  7020.       fprintf (file, "</td>");

  7021.     }

  7022.     fprintf (file, "</tr>\n");

  7023.   }

  7024.   fprintf (file, "</table>\n");

  7025.   fprintf (file, "</body></html>\n");

  7026.   fprintf (file, "\n");

  7027. 

  7028.   fflush (file);

  7029. }

  7030. 

  7031. /* 

  7032. --------------------------------------------------------------------------------------------

  7033.                                HELP

  7034. --------------------------------------------------------------------------------------------

  7035. */

  7036. LineType *

  7037. bwb_HELP (LineType * l)

  7038. {

  7039.   /* HELP ... */

  7040.   int n;

  7041.   int Found;

  7042.   char *C;

  7043.   char *tbuf;

  7044.    

  7045.   assert (l != NULL);

  7046.   assert( My != NULL );

  7047.   assert( My->ConsoleInput != NULL );

  7048.   assert( My->SYSOUT != NULL );

  7049.   assert( My->SYSOUT->cfp != NULL );

  7050. 

  7051.   tbuf = My->ConsoleInput;

  7052.   Found = FALSE;

  7053. 

  7054.   C = l->buffer;

  7055.   C += l->position;

  7056.   bwb_strcpy (tbuf, C);

  7057. 

  7058.   /* RTRIM$ */

  7059.   C = tbuf;

  7060.   if (*C != 0)

  7061.   {

  7062.     /* not an empty line, so remove one (or more) trailing spaces */

  7063.     char *E;

  7064. 

  7065.     E = bwb_strchr (tbuf, 0);

  7066.     E--;

  7067.     while (E >= tbuf && *E == ' ')

  7068.     {

  7069.       *E = 0;

  7070.       E--;

  7071.     }

  7072.   }

  7073. 

  7074. 

  7075.   /* EXACT match */

  7076.   for (n = 0; n < NUM_COMMANDS; n++)

  7077.   {

  7078.     if (bwb_stricmp (IntrinsicCommandTable[n].name, tbuf) == 0)

  7079.     {

  7080.       fprintf (My->SYSOUT->cfp,

  7081.                "------------------------------------------------------------\n");

  7082.       DumpOneCommandSyntax (My->SYSOUT->cfp, FALSE, n);

  7083.       Found = TRUE;

  7084.     }

  7085.   }

  7086. 

  7087.   for (n = 0; n < NUM_FUNCTIONS; n++)

  7088.   {

  7089.     if (bwb_stricmp (IntrinsicFunctionTable[n].Name, tbuf) == 0)

  7090.     {

  7091.       fprintf (My->SYSOUT->cfp,

  7092.                "------------------------------------------------------------\n");

  7093.       DumpOneFunctionSyntax (My->SYSOUT->cfp, FALSE, n);

  7094.       Found = TRUE;

  7095.     }

  7096.   }

  7097. 

  7098.   if (Found == FALSE)

  7099.   {

  7100.     /* PARTIAL match */

  7101.     int Length;

  7102.     Length = bwb_strlen (tbuf);

  7103. 

  7104.     for (n = 0; n < NUM_COMMANDS; n++)

  7105.     {

  7106.       if (bwb_strnicmp (IntrinsicCommandTable[n].name, tbuf, Length) == 0)

  7107.       {

  7108.         if (Found == FALSE)

  7109.         {

  7110.           fprintf (My->SYSOUT->cfp,

  7111.                    "The following topics are a partial match:\n");

  7112.         }

  7113.         fprintf (My->SYSOUT->cfp, IntrinsicCommandTable[n].name);

  7114.         fprintf (My->SYSOUT->cfp, "\t");

  7115.         Found = TRUE;

  7116.       }

  7117.     }

  7118. 

  7119.     for (n = 0; n < NUM_FUNCTIONS; n++)

  7120.     {

  7121.       if (bwb_strnicmp (IntrinsicFunctionTable[n].Name, tbuf, Length) == 0)

  7122.       {

  7123.         if (Found == FALSE)

  7124.         {

  7125.           fprintf (My->SYSOUT->cfp,

  7126.                    "The following topics are a partial match:\n");

  7127.         }

  7128.         fprintf (My->SYSOUT->cfp, IntrinsicFunctionTable[n].Name);

  7129.         fprintf (My->SYSOUT->cfp, "\t");

  7130.         Found = TRUE;

  7131.       }

  7132.     }

  7133.     if (Found == TRUE)

  7134.     {

  7135.       /* match */

  7136.       fprintf (My->SYSOUT->cfp, "\n");

  7137.     }

  7138.   }

  7139.   if (Found == FALSE)

  7140.   {

  7141.     /* NO match */

  7142.     fprintf (My->SYSOUT->cfp, "No help found.\n");

  7143.   }

  7144.   ResetConsoleColumn ();

  7145.   line_skip_eol (l);

  7146.   return (l);

  7147. 

  7148. }

  7149. 

  7150. int

  7151. NumberValueCheck (ParamTestType ParameterTests, DoubleType X)

  7152. {

  7153.   DoubleType XR;                /* rounded value */

  7154.   unsigned char TestNibble;

  7155.    

  7156. 

  7157. 

  7158.   /* VerifyNumeric */

  7159.   if (isnan (X))

  7160.   {

  7161.     /* INTERNAL ERROR */

  7162.     return -1;

  7163.   }

  7164.   if (isinf (X))

  7165.   {

  7166.     /* - Evaluation of an expression results in an overflow

  7167.      * (nonfatal, the recommended recovery procedure is to supply

  7168.      * machine in- finity with the algebraically correct sign and

  7169.      * continue). */

  7170.     if (X < 0)

  7171.     {

  7172.       X = MINDBL;

  7173.     }

  7174.     else

  7175.     {

  7176.       X = MAXDBL;

  7177.     }

  7178.     if (WARN_OVERFLOW)

  7179.     {

  7180.       /* ERROR */

  7181.       return -1;

  7182.     }

  7183.     /* CONTINUE */

  7184.   }

  7185.   /* OK */

  7186.   /* VALID NUMERIC VALUE */

  7187.   XR = bwb_rint (X);

  7188.   ParameterTests &= 0x0000000F;

  7189.   TestNibble = (unsigned char) ParameterTests;

  7190.   switch (TestNibble)

  7191.   {

  7192.   case P1ERR:

  7193.     /* INTERNAL ERROR */

  7194.     return -1;

  7195.     /* break; */

  7196.   case P1ANY:

  7197.     if (X < MINDBL || X > MAXDBL)

  7198.     {

  7199.       /* ERROR */

  7200.       return -1;

  7201.     }

  7202.     /* OK */

  7203.     return 0;

  7204.     /* break; */

  7205.   case P1BYT:

  7206.     if (XR < MINBYT || XR > MAXBYT)

  7207.     {

  7208.       /* ERROR */

  7209.       return -1;

  7210.     }

  7211.     /* OK */

  7212.     return 0;

  7213.     /* break; */

  7214.   case P1INT:

  7215.     if (XR < MININT || XR > MAXINT)

  7216.     {

  7217.       /* ERROR */

  7218.       return -1;

  7219.     }

  7220.     /* OK */

  7221.     return 0;

  7222.     /* break; */

  7223.   case P1LNG:

  7224.     if (XR < MINLNG || XR > MAXLNG)

  7225.     {

  7226.       /* ERROR */

  7227.       return -1;

  7228.     }

  7229.     /* OK */

  7230.     return 0;

  7231.     /* break; */

  7232.   case P1CUR:

  7233.     if (XR < MINCUR || XR > MAXCUR)

  7234.     {

  7235.       /* ERROR */

  7236.       return -1;

  7237.     }

  7238.     /* OK */

  7239.     return 0;

  7240.     /* break; */

  7241.   case P1FLT:

  7242.     if (X < MINSNG || X > MAXSNG)

  7243.     {

  7244.       /* ERROR */

  7245.       return -1;

  7246.     }

  7247.     /* OK */

  7248.     return 0;

  7249.     /* break; */

  7250.   case P1DBL:

  7251.     if (X < MINDBL || X > MAXDBL)

  7252.     {

  7253.       /* ERROR */

  7254.       return -1;

  7255.     }

  7256.     /* OK */

  7257.     return 0;

  7258.     /* break; */

  7259.   case P1DEV:

  7260.     /* ERROR */

  7261.     return -1;

  7262.     /* break; */

  7263.   case P1LEN:

  7264.     if (XR < MINLEN || XR > MAXLEN)

  7265.     {

  7266.       /* ERROR */

  7267.       return -1;

  7268.     }

  7269.     /* OK */

  7270.     return 0;

  7271.     /* break; */

  7272.   case P1POS:

  7273.     if (XR < 1 || XR > MAXLEN)

  7274.     {

  7275.       /* ERROR */

  7276.       return -1;

  7277.     }

  7278.     /* OK */

  7279.     return 0;

  7280.     /* break; */

  7281.   case P1COM:

  7282.     /* ERROR */

  7283.     return -1;

  7284.     /* break; */

  7285.   case P1LPT:

  7286.     /* ERROR */

  7287.     return -1;

  7288.     /* break; */

  7289.   case P1GTZ:

  7290.     if (X > 0)

  7291.     {

  7292.       /* OK */

  7293.       return 0;

  7294.     }

  7295.     break;

  7296.   case P1GEZ:

  7297.     if (X >= 0)

  7298.     {

  7299.       /* OK */

  7300.       return 0;

  7301.     }

  7302.     break;

  7303.   case P1NEZ:

  7304.     if (X != 0)

  7305.     {

  7306.       /* OK */

  7307.       return 0;

  7308.     }

  7309.     break;

  7310.   }

  7311.   /* ERROR */

  7312.   return -1;

  7313. }

  7314. 

  7315. int

  7316. StringLengthCheck (ParamTestType ParameterTests, int s)

  7317. {

  7318.   unsigned char TestNibble;

  7319.    

  7320. 

  7321.   /* check for invalid string length */

  7322.   if (s < 0 || s > MAXLEN)

  7323.   {

  7324.     /* INTERNAL ERROR */

  7325.     return -1;

  7326.   }

  7327.   /* VALID STRING LENGTH */

  7328.   ParameterTests &= 0x0000000F;

  7329.   TestNibble = (unsigned char) ParameterTests;

  7330.   switch (TestNibble)

  7331.   {

  7332.   case P1ERR:

  7333.     /* INTERNAL ERROR */

  7334.     return -1;

  7335.     /* break; */

  7336.   case P1ANY:

  7337.     /* OK */

  7338.     return 0;

  7339.     /* break; */

  7340.   case P1BYT:

  7341.     if (s >= sizeof (ByteType))

  7342.     {

  7343.       /* OK */

  7344.       return 0;

  7345.     }

  7346.     break;

  7347.   case P1INT:

  7348.     if (s >= sizeof (IntegerType))

  7349.     {

  7350.       /* OK */

  7351.       return 0;

  7352.     }

  7353.     break;

  7354.   case P1LNG:

  7355.     if (s >= sizeof (LongType))

  7356.     {

  7357.       /* OK */

  7358.       return 0;

  7359.     }

  7360.     break;

  7361.   case P1CUR:

  7362.     if (s >= sizeof (CurrencyType))

  7363.     {

  7364.       /* OK */

  7365.       return 0;

  7366.     }

  7367.     break;

  7368.   case P1FLT:

  7369.     if (s >= sizeof (SingleType))

  7370.     {

  7371.       /* OK */

  7372.       return 0;

  7373.     }

  7374.     break;

  7375.   case P1DBL:

  7376.     if (s >= sizeof (DoubleType))

  7377.     {

  7378.       /* OK */

  7379.       return 0;

  7380.     }

  7381.     break;

  7382.   case P1DEV:

  7383.     /* ERROR */

  7384.     return -1;

  7385.     /* break; */

  7386.   case P1LEN:

  7387.     /* ERROR */

  7388.     return -1;

  7389.     /* break; */

  7390.   case P1POS:

  7391.     /* ERROR */

  7392.     return -1;

  7393.     /* break; */

  7394.   case P1GEZ:

  7395.     /* ERROR */

  7396.     return -1;

  7397.     /* break; */

  7398.   case P1GTZ:

  7399.     /* ERROR */

  7400.     return -1;

  7401.     /* break; */

  7402.   case P1NEZ:

  7403.     /* ERROR */

  7404.     return -1;

  7405.     /* break; */

  7406.   }

  7407.   /* ERROR */

  7408.   return -1;

  7409. }

  7410. 

  7411. void

  7412. IntrinsicFunctionDefinitionCheck (IntrinsicFunctionType * f)

  7413. {

  7414.   /* function definition check -- look for obvious errors */

  7415.    

  7416.   assert (f != NULL);

  7417.   assert( My != NULL );

  7418.   assert( My->SYSOUT != NULL );

  7419.   assert( My->SYSOUT->cfp != NULL );

  7420. 

  7421. 

  7422.   /* sanity check */

  7423.   if (f->ParameterCount == PNONE || f->ParameterCount == 0xFF)

  7424.   {

  7425.     /* function has NO explicit parameters */

  7426.     if (f->ParameterTypes == PNONE)

  7427.     {

  7428.       /* OK */

  7429.     }

  7430.     else

  7431.     {

  7432.       /* oops */

  7433.       fprintf (My->SYSOUT->cfp, "invalid ParameterTypes <%s>\n", f->Name);

  7434.     }

  7435.     if (f->ParameterTests == PNONE)

  7436.     {

  7437.       /* OK */

  7438.     }

  7439.     else

  7440.     {

  7441.       /* oops */

  7442.       fprintf (My->SYSOUT->cfp, "invalid ParameterTests <%s>\n", f->Name);

  7443.     }

  7444.   }

  7445.   else

  7446.   {

  7447.     /* function HAS an explicit number of parameters */

  7448.     int i;

  7449.     ParamTestType ParameterTests;

  7450. 

  7451.     ParameterTests = f->ParameterTests;

  7452.     for (i = 0; i < f->ParameterCount; i++)

  7453.     {

  7454.       /* sanity check this parameter */

  7455.       ParamTestType thischeck;

  7456.       thischeck = ParameterTests & 0x0000000F;

  7457.       /* verify parameter check  */

  7458.       if (f->ParameterTypes & (1 << i))

  7459.       {

  7460.         /* STRING */

  7461.         if (thischeck >= P1ANY && thischeck <= P1DBL)

  7462.         {

  7463.           /* OK */

  7464.         }

  7465.         else

  7466.         {

  7467.           /* oops */

  7468.           fprintf (My->SYSOUT->cfp,

  7469.                    "invalid ParameterTests <%s> parameter %d\n", f->Name,

  7470.                    i + 1);

  7471.         }

  7472.       }

  7473.       else

  7474.       {

  7475.         /* NUMBER */

  7476.         if (thischeck >= P1ANY && thischeck <= P1NEZ)

  7477.         {

  7478.           /* OK */

  7479.         }

  7480.         else

  7481.         {

  7482.           /* oops */

  7483.           fprintf (My->SYSOUT->cfp,

  7484.                    "invalid ParameterTests <%s> parameter %d\n", f->Name,

  7485.                    i + 1);

  7486.         }

  7487.       }

  7488.       ParameterTests = ParameterTests >> 4;

  7489.     }

  7490.     if (ParameterTests != 0)

  7491.     {

  7492.       /* oops */

  7493.       fprintf (My->SYSOUT->cfp, "invalid ParameterTests <%s> parameter %d\n",

  7494.                f->Name, i + 1);

  7495.     }

  7496.   }

  7497. }

  7498. 

  7499. void

  7500. IntrinsicFunctionUniqueID (IntrinsicFunctionType * f, char *UniqueID)

  7501. {

  7502.   /* generate the function's UniqueID */

  7503.   /* manual fixup required for duplicates */

  7504.   char NumVar;

  7505.   char StrVar;

  7506.    

  7507.   assert (f != NULL);

  7508.   assert (UniqueID != NULL);

  7509. 

  7510. 

  7511.   NumVar = 'X';

  7512.   StrVar = 'A';

  7513. 

  7514.   /* F_  */

  7515.   bwb_strcpy (UniqueID, "F_");

  7516.   /* NAME  */

  7517.   bwb_strcat (UniqueID, f->Name);

  7518.   /* PARAMETERS */

  7519.   if (f->ParameterCount == PNONE || f->ParameterCount == 0xFF)

  7520.   {

  7521.     /* function has NO explicit parameters */

  7522.   }

  7523.   else

  7524.   {

  7525.     /* function HAS explicit parameters */

  7526.     int i;

  7527.     ParamBitsType ParameterTypes;

  7528.     ParameterTypes = f->ParameterTypes;

  7529.     for (i = 0; i < f->ParameterCount; i++)

  7530.     {

  7531.       char VarName[NameLengthMax + 1];

  7532.       if (ParameterTypes & 1)

  7533.       {

  7534.         /* STRING */

  7535.         sprintf (VarName, "_%c", StrVar);

  7536.         StrVar++;

  7537.       }

  7538.       else

  7539.       {

  7540.         /* NUMBER */

  7541.         sprintf (VarName, "_%c", NumVar);

  7542.         NumVar++;

  7543.       }

  7544.       bwb_strcat (UniqueID, VarName);

  7545.       ParameterTypes = ParameterTypes >> 1;

  7546.     }

  7547.   }

  7548.   /* RETURN TYPE */

  7549.   if (f->ReturnTypeCode == StringTypeCode)

  7550.   {

  7551.     bwb_strcat (UniqueID, "_S");

  7552.   }

  7553.   else

  7554.   {

  7555.     bwb_strcat (UniqueID, "_N");

  7556.   }

  7557.   /* fixup illegal characters,  "DEF FN" "BLOAD:", "CLOAD*" */

  7558.   FixUp (UniqueID);

  7559. }

  7560. 

  7561. 

  7562. void

  7563. IntrinsicFunctionSyntax (IntrinsicFunctionType * f, char *Syntax)

  7564. {

  7565.   /* generate the function's Syntax */

  7566.   char NumVar;

  7567.   char StrVar;

  7568.    

  7569.   assert (f != NULL);

  7570.   assert (Syntax != NULL);

  7571. 

  7572. 

  7573.   NumVar = 'X';

  7574.   StrVar = 'A';

  7575. 

  7576.   /* RETURN TYPE */

  7577.   if (f->ReturnTypeCode == StringTypeCode)

  7578.   {

  7579.     bwb_strcpy (Syntax, "S$ = ");

  7580.   }

  7581.   else

  7582.   {

  7583.     bwb_strcpy (Syntax, "N  = ");

  7584.   }

  7585.   /* NAME  */

  7586.   bwb_strcat (Syntax, f->Name);

  7587.   /* PARAMETERS */

  7588.   if (f->ParameterCount == PNONE)

  7589.   {

  7590.     /* function has NO explicit parameters */

  7591.   }

  7592.   else if (f->ParameterCount == 0xFF)

  7593.   {

  7594.     /* function has a variable number of parameters */

  7595.     bwb_strcat (Syntax, "( ... )");

  7596.   }

  7597.   else

  7598.   {

  7599.     /* function HAS explicit parameters */

  7600.     int i;

  7601.     ParamBitsType ParameterTypes;

  7602.     ParameterTypes = f->ParameterTypes;

  7603. 

  7604.     if (f->ReturnTypeCode == StringTypeCode)

  7605.     {

  7606.       bwb_strcat (Syntax, "( ");

  7607.     }

  7608.     else

  7609.     {

  7610.       bwb_strcat (Syntax, "( ");

  7611.     }

  7612. 

  7613.     for (i = 0; i < f->ParameterCount; i++)

  7614.     {

  7615.       char VarName[NameLengthMax + 1];

  7616.       if (i > 0)

  7617.       {

  7618.         bwb_strcat (Syntax, ", ");

  7619.       }

  7620.       /* verify parameter check  */

  7621.       if (ParameterTypes & 1)

  7622.       {

  7623.         /* STRING */

  7624.         sprintf (VarName, "%c$", StrVar);

  7625.         StrVar++;

  7626.       }

  7627.       else

  7628.       {

  7629.         /* NUMBER */

  7630.         sprintf (VarName, "%c", NumVar);

  7631.         NumVar++;

  7632.       }

  7633.       bwb_strcat (Syntax, VarName);

  7634.       ParameterTypes = ParameterTypes >> 1;

  7635.     }

  7636.     if (f->ReturnTypeCode == StringTypeCode)

  7637.     {

  7638.       bwb_strcat (Syntax, " )");

  7639.     }

  7640.     else

  7641.     {

  7642.       bwb_strcat (Syntax, " )");

  7643.     }

  7644.   }

  7645. }

  7646. 

  7647. void

  7648. DumpAllFunctionUniqueID (FILE * file)

  7649. {

  7650.   /* for the C maintainer */

  7651.   int i;

  7652.   int j;

  7653.   char LastUniqueID[NameLengthMax + 1];

  7654.    

  7655.   assert (file != NULL);

  7656. 

  7657.   j = 0;

  7658.   LastUniqueID[0] = NulChar;

  7659. 

  7660.   fprintf (file, "/* FUNCTIONS */\n");

  7661.   for (i = 0; i < NUM_FUNCTIONS; i++)

  7662.   {

  7663.     char UniqueID[NameLengthMax + 1];

  7664. 

  7665.     IntrinsicFunctionUniqueID (&(IntrinsicFunctionTable[i]), UniqueID);

  7666.     if (bwb_stricmp (LastUniqueID, UniqueID) != 0)

  7667.     {

  7668.       /* not a duplicate */

  7669.       char Syntax[NameLengthMax + 1];

  7670. 

  7671.       bwb_strcpy (LastUniqueID, UniqueID);

  7672.       j = j + 1;

  7673.       IntrinsicFunctionSyntax (&(IntrinsicFunctionTable[i]), Syntax);

  7674.       fprintf (file, "#define %-30s %3d /* %-30s */\n", UniqueID, j, Syntax);

  7675.     }

  7676.   }

  7677.   fprintf (file, "#define NUM_FUNCTIONS %d\n", j);

  7678.   fflush (file);

  7679. }

  7680. 

  7681. void

  7682. DumpAllFunctionSwitch (FILE * file)

  7683. {

  7684.   /* for the C maintainer */

  7685.   int i;

  7686.    

  7687.   assert (file != NULL);

  7688. 

  7689. 

  7690.   fprintf (file, "/* SWITCH */\n");

  7691.   fprintf (file, "switch( UniqueID )\n");

  7692.   fprintf (file, "{\n");

  7693.   for (i = 0; i < NUM_FUNCTIONS; i++)

  7694.   {

  7695.     char tbuf[MAINTAINER_BUFFER_LENGTH + 1];        /* DumpAllFunctionSwitch */

  7696. 

  7697.     fprintf (file, "case ");

  7698.     IntrinsicFunctionUniqueID (&(IntrinsicFunctionTable[i]), tbuf);

  7699.     fprintf (file, tbuf);

  7700.     fprintf (file, ":\n");

  7701.     fprintf (file, "    break;\n");

  7702.   }

  7703.   fprintf (file, "}\n");

  7704.   fflush (file);

  7705. }

  7706. 

  7707. static const char *ParameterRangeID[16] = {

  7708.   "P%dERR",

  7709.   "P%dANY",

  7710.   "P%dBYT",

  7711.   "P%dINT",

  7712.   "P%dLNG",

  7713.   "P%dCUR",

  7714.   "P%dFLT",

  7715.   "P%dDBL",

  7716.   "P%dDEV",

  7717.   "P%dLEN",

  7718.   "P%dPOS",

  7719.   "P%dCOM",

  7720.   "P%dLPT",

  7721.   "P%dGTZ",

  7722.   "P%dGEZ",

  7723.   "P%dNEZ",

  7724. };

  7725. 

  7726. static const char *NumberVariableRange[16] = {

  7727.   /* P1ERR */ "  PARAMETER: %c  is a number, INTERNAL ERROR",

  7728.   /* P1ANY */ "  PARAMETER: %c  is a number",

  7729.   /* P1BYT */ "  PARAMETER: %c  is a number, [0,255]",

  7730.   /* P1INT */ "  PARAMETER: %c  is a number, [MININT,MAXINT]",

  7731.   /* P1LNG */ "  PARAMETER: %c  is a number, [MINLNG,MAXLNG]",

  7732.   /* P1CUR */ "  PARAMETER: %c  is a number, [MINCUR,MAXCUR]",

  7733.   /* P1FLT */ "  PARAMETER: %c  is a number, [MINFLT,MAXFLT]",

  7734.   /* P1DBL */ "  PARAMETER: %c  is a number, [MINDBL,MAXDBL]",

  7735.   /* P1DEV */ "  PARAMETER: %c  is a number, RESERVED",

  7736.   /* P1LEN */ "  PARAMETER: %c  is a number, [0,MAXLEN]",

  7737.   /* P1POS */ "  PARAMETER: %c  is a number, [1,MAXLEN]",

  7738.   /* P1COM */ "  PARAMETER: %c  is a number, RESERVED",

  7739.   /* P1LPT */ "  PARAMETER: %c  is a number, RESERVED",

  7740.   /* P1GTZ */ "  PARAMETER: %c  is a number, >  0",

  7741.   /* P1GEZ */ "  PARAMETER: %c  is a number, >= 0",

  7742.   /* P1NEZ */ "  PARAMETER: %c  is a number, <> 0",

  7743. };

  7744. 

  7745. static const char *StringVariableRange[16] = {

  7746.   /* P1ERR */ "  PARAMETER: %c$ is a string, INTERNAL ERROR",

  7747.   /* P1ANY */ "  PARAMETER: %c$ is a string, LEN >= 0",

  7748.   /* P1BYT */ "  PARAMETER: %c$ is a string, LEN >= 1",

  7749.   /* P1INT */ "  PARAMETER: %c$ is a string, LEN >= sizeof(INT)",

  7750.   /* P1LNG */ "  PARAMETER: %c$ is a string, LEN >= sizeof(LNG)",

  7751.   /* P1CUR */ "  PARAMETER: %c$ is a string, LEN >= sizeof(CUR)",

  7752.   /* P1FLT */ "  PARAMETER: %c$ is a string, LEN >= sizeof(FLT)",

  7753.   /* P1DBL */ "  PARAMETER: %c$ is a string, LEN >= sizeof(DBL)",

  7754.   /* P1DEV */ "  PARAMETER: %c$ is a string, RESERVED",

  7755.   /* P1LEN */ "  PARAMETER: %c$ is a string, RESERVED",

  7756.   /* P1POS */ "  PARAMETER: %c$ is a string, RESERVED",

  7757.   /* P1COM */ "  PARAMETER: %c$ is a string, RESERVED",

  7758.   /* P1LPT */ "  PARAMETER: %c$ is a string, RESERVED",

  7759.   /* P1GTZ */ "  PARAMETER: %c$ is a string, RESERVED",

  7760.   /* P1GEZ */ "  PARAMETER: %c$ is a string, RESERVED",

  7761.   /* P1NEZ */ "  PARAMETER: %c$ is a string, RESERVED",

  7762. };

  7763. 

  7764. void

  7765. DumpAllFuctionTableDefinitions (FILE * file)

  7766. {

  7767.   /* generate bwd_fun.c */

  7768.   int n;

  7769.    

  7770.   assert (file != NULL);

  7771. 

  7772. 

  7773.   fprintf (file, "/* FUNCTION TABLE */\n");

  7774.   fprintf (file, "\n");

  7775.   fprintf (file, "#include \"bwbasic.h\"\n");

  7776.   fprintf (file, "\n");

  7777.   fprintf (file,

  7778.            "IntrinsicFunctionType IntrinsicFunctionTable[ /* NUM_FUNCTIONS */ ] =\n");

  7779.   fprintf (file, "{\n");

  7780.   for (n = 0; n < NUM_FUNCTIONS; n++)

  7781.   {

  7782.     int i;

  7783.     int j;

  7784.     char tbuf[MAINTAINER_BUFFER_LENGTH + 1];        /* DumpAllFuctionTableDefinitions */

  7785.     char UniqueID[MAINTAINER_BUFFER_LENGTH + 1];        /* DumpAllFuctionTableDefinitions */

  7786.     char Syntax[MAINTAINER_BUFFER_LENGTH + 1];        /* DumpAllFuctionTableDefinitions */

  7787.     IntrinsicFunctionType *f;

  7788. 

  7789.     f = &(IntrinsicFunctionTable[n]);

  7790. 

  7791.     IntrinsicFunctionUniqueID (f, UniqueID);

  7792.     IntrinsicFunctionSyntax (f, Syntax);

  7793.     fprintf (file, "{\n");

  7794.     fprintf (file, "  %s, /* UniqueID */\n", UniqueID);

  7795.     fprintf (file, "  \"%s\", /* Syntax */\n", Syntax);

  7796.     fprintf (file, "  ");

  7797.     fprintf (file, "\"");

  7798.     ProcessEscapeChars (f->Description, tbuf);

  7799.     fprintf (file, tbuf);

  7800.     fprintf (file, "\"");

  7801.     fprintf (file, ",  /* Description */\n");

  7802.     fprintf (file, "  \"%s\", /* Name */\n", f->Name);

  7803.     switch (f->ReturnTypeCode)

  7804.     {

  7805.     case ByteTypeCode:

  7806.       fprintf (file, "  %s, /* ReturnTypeCode */\n", "ByteTypeCode");

  7807.       break;

  7808.     case IntegerTypeCode:

  7809.       fprintf (file, "  %s, /* ReturnTypeCode */\n", "IntegerTypeCode");

  7810.       break;

  7811.     case LongTypeCode:

  7812.       fprintf (file, "  %s, /* ReturnTypeCode */\n", "LongTypeCode");

  7813.       break;

  7814.     case CurrencyTypeCode:

  7815.       fprintf (file, "  %s, /* ReturnTypeCode */\n", "CurrencyTypeCode");

  7816.       break;

  7817.     case SingleTypeCode:

  7818.       fprintf (file, "  %s, /* ReturnTypeCode */\n", "SingleTypeCode");

  7819.       break;

  7820.     case DoubleTypeCode:

  7821.       fprintf (file, "  %s, /* ReturnTypeCode */\n", "DoubleTypeCode");

  7822.       break;

  7823.     case StringTypeCode:

  7824.       fprintf (file, "  %s, /* ReturnTypeCode */\n", "StringTypeCode");

  7825.       break;

  7826.     default:

  7827.       fprintf (file, "  %s, /* ReturnTypeCode */\n", "INTERNAL ERROR");

  7828.       break;

  7829.     }

  7830.     fprintf (file, "  %d, /* ParameterCount */\n", f->ParameterCount);

  7831.     if (f->ParameterCount == 0 || f->ParameterCount == 0xFF)

  7832.     {

  7833.       /* function has NO explicit parameters */

  7834.       fprintf (file, "  %s, /* ParameterTypes */\n", "PNONE");

  7835.       fprintf (file, "  %s, /* ParameterTests */\n", "PNONE");

  7836.     }

  7837.     else

  7838.     {

  7839.       /* function has explicit parameters */

  7840.       bwb_strcpy (tbuf, "  ");

  7841.       for (i = 0; i < f->ParameterCount; i++)

  7842.       {

  7843.         ParamBitsType ParameterTypes;

  7844.         ParameterTypes = f->ParameterTypes >> i;

  7845.         ParameterTypes &= 0x1;

  7846.         if (i > 0)

  7847.         {

  7848.           bwb_strcat (tbuf, " | ");

  7849.         }

  7850.         if (ParameterTypes)

  7851.         {

  7852.           sprintf (bwb_strchr (tbuf, NulChar), "P%dSTR", i + 1);

  7853.         }

  7854.         else

  7855.         {

  7856.           sprintf (bwb_strchr (tbuf, NulChar), "P%dNUM", i + 1);

  7857.         }

  7858.       }

  7859.       bwb_strcat (tbuf, ", /* ParameterTypes */\n");

  7860.       fprintf (file, tbuf);

  7861. 

  7862. 

  7863.       bwb_strcpy (tbuf, "  ");

  7864.       for (i = 0; i < f->ParameterCount; i++)

  7865.       {

  7866.         ParamTestType ParameterTests;

  7867.         ParameterTests = f->ParameterTests >> (i * 4);

  7868.         ParameterTests &= 0xF;

  7869. 

  7870.         if (i > 0)

  7871.         {

  7872.           bwb_strcat (tbuf, " | ");

  7873.         }

  7874.         sprintf (bwb_strchr (tbuf, 0), ParameterRangeID[ParameterTests],

  7875.                  i + 1);

  7876.         /* Conversion may lose significant digits */

  7877.       }

  7878.       bwb_strcat (tbuf, ", /* ParameterTests */\n");

  7879.       fprintf (file, tbuf);

  7880.     }

  7881.     bwb_strcpy (tbuf, "  ");

  7882.     j = 0;

  7883.     for (i = 0; i < NUM_VERSIONS; i++)

  7884.     {

  7885.       if (f->OptionVersionBitmask & bwb_vertable[i].OptionVersionValue)

  7886.       {

  7887.         if (j > 0)

  7888.         {

  7889.           bwb_strcat (tbuf, " | ");

  7890.         }

  7891.         bwb_strcat (tbuf, bwb_vertable[i].ID);

  7892.         j++;

  7893.       }

  7894.     }

  7895.     bwb_strcat (tbuf, " /* OptionVersionBitmask */\n");

  7896.     fprintf (file, tbuf);

  7897.     fprintf (file, "},\n");

  7898.   }

  7899.   fprintf (file, "};\n");

  7900.   fprintf (file, "\n");

  7901.   fprintf (file,

  7902.            "const size_t NUM_FUNCTIONS = sizeof( IntrinsicFunctionTable ) / sizeof( IntrinsicFunctionType  );\n");

  7903.   fprintf (file, "\n");

  7904.   fflush (file);

  7905. }

  7906. 

  7907. void

  7908. DumpOneFunctionSyntax (FILE * file, int IsXref, int n)

  7909. {

  7910.   IntrinsicFunctionType *f;

  7911.   assert (file != NULL);

  7912. 

  7913.    

  7914. 

  7915.   if (n < 0 || n >= NUM_FUNCTIONS)

  7916.   {

  7917.     return;

  7918.   }

  7919.   f = &(IntrinsicFunctionTable[n]);

  7920.   /* NAME */

  7921.   {

  7922.     char UniqueID[MAINTAINER_BUFFER_LENGTH + 1];        /* DumpOneFunctionSyntax */

  7923.     char Syntax[MAINTAINER_BUFFER_LENGTH + 1];        /* DumpOneFunctionSyntax */

  7924. 

  7925.     IntrinsicFunctionUniqueID (f, UniqueID);

  7926.     IntrinsicFunctionSyntax (f, Syntax);

  7927.     fprintf (file, "     SYNTAX: %s\n", Syntax);

  7928.   }

  7929.   /* PARAMETERS */

  7930.   if (f->ParameterCount == PNONE || f->ParameterCount == 0xFF)

  7931.   {

  7932.     /* function has NO explicit parameters */

  7933.   }

  7934.   else

  7935.   {

  7936.     /* function HAS explicit parameters */

  7937.     int i;

  7938.     ParamBitsType ParameterTypes;

  7939.     ParamTestType ParameterTests;

  7940.     char NumVar;

  7941.     char StrVar;

  7942.     ParameterTypes = f->ParameterTypes;

  7943.     ParameterTests = f->ParameterTests;

  7944.     NumVar = 'X';

  7945.     StrVar = 'A';

  7946.     for (i = 0; i < f->ParameterCount; i++)

  7947.     {

  7948.       /* sanity check this parameter */

  7949.       unsigned long thischeck;

  7950.       char tbuf[MAINTAINER_BUFFER_LENGTH + 1];        /* DumpOneFunctionSyntax */

  7951. 

  7952.       thischeck = ParameterTests & 0x0000000F;

  7953.       /* verify parameter check  */

  7954.       if (ParameterTypes & 1)

  7955.       {

  7956.         /* STRING */

  7957.         sprintf (tbuf, StringVariableRange[thischeck], StrVar);

  7958.         /* Conversion may lose significant digits */

  7959.         StrVar++;

  7960.       }

  7961.       else

  7962.       {

  7963.         /* NUMBER */

  7964.         sprintf (tbuf, NumberVariableRange[thischeck], NumVar);

  7965.         /* Conversion may lose significant digits */

  7966.         NumVar++;

  7967.       }

  7968.       fprintf (file, tbuf);

  7969.       fprintf (file, "\n");

  7970.       ParameterTypes = ParameterTypes >> 1;

  7971.       ParameterTests = ParameterTests >> 4;

  7972.     }

  7973.   }

  7974.   /* DESCRIPTION */

  7975.   {

  7976.     FixDescription (file, "DESCRIPTION: ", f->Description);

  7977.   }

  7978.   /* COMPATIBILITY */

  7979.   if (IsXref)

  7980.   {

  7981.     int i;

  7982.     fprintf (file, "   VERSIONS:\n");

  7983.     for (i = 0; i < NUM_VERSIONS; i++)

  7984.     {

  7985.       char X;

  7986.       if (f->OptionVersionBitmask & bwb_vertable[i].OptionVersionValue)

  7987.       {

  7988.         /* SUPPORTED */

  7989.         X = 'X';

  7990.       }

  7991.       else

  7992.       {

  7993.         /* NOT SUPPORTED */

  7994.         X = '_';

  7995.       }

  7996.       fprintf (file, "             [%c] %s\n", X, bwb_vertable[i].Name);

  7997.     }

  7998.   }

  7999. 

  8000.   fflush (file);

  8001. }

  8002. 

  8003. void

  8004. DumpAllFunctionSyntax (FILE * file, int IsXref,

  8005.                        OptionVersionType OptionVersionValue)

  8006. {

  8007.   /* for the C maintainer */

  8008.   int i;

  8009.    

  8010.   assert (file != NULL);

  8011. 

  8012. 

  8013.   fprintf (file,

  8014.            "============================================================\n");

  8015.   fprintf (file,

  8016.            "                    FUNCTIONS                               \n");

  8017.   fprintf (file,

  8018.            "============================================================\n");

  8019.   fprintf (file, "\n");

  8020.   fprintf (file, "\n");

  8021.   for (i = 0; i < NUM_FUNCTIONS; i++)

  8022.   {

  8023.     if (IntrinsicFunctionTable[i].OptionVersionBitmask & OptionVersionValue)

  8024.     {

  8025.       fprintf (file,

  8026.                "------------------------------------------------------------\n");

  8027.       DumpOneFunctionSyntax (file, IsXref, i);

  8028.     }

  8029.   }

  8030.   fprintf (file,

  8031.            "------------------------------------------------------------\n");

  8032.   fprintf (file, "\n");

  8033.   fprintf (file, "\n");

  8034.   fflush (file);

  8035. }

  8036. 

  8037. void

  8038. DumpAllFunctionHtmlTable (FILE * file)

  8039. {

  8040.   /* generate bwd_cmd.htm */

  8041.   int i;

  8042.   int j;

  8043.    

  8044.   assert (file != NULL);

  8045. 

  8046. 

  8047.   /* LEGEND */

  8048.   fprintf (file, "<html><head><title>FNCS</title></head><body>\n");

  8049.   fprintf (file, "<h1>LEGEND</h1><br>\n");

  8050.   fprintf (file, "<table>\n");

  8051. 

  8052.   fprintf (file, "<tr>");

  8053.   fprintf (file, "<td>");

  8054.   fprintf (file, "<b>");

  8055.   fprintf (file, "ID");

  8056.   fprintf (file, "</b>");

  8057.   fprintf (file, "</td>");

  8058.   fprintf (file, "<td>");

  8059.   fprintf (file, "<b>");

  8060.   fprintf (file, "NAME");

  8061.   fprintf (file, "</b>");

  8062.   fprintf (file, "</td>");

  8063.   fprintf (file, "<td>");

  8064.   fprintf (file, "<b>");

  8065.   fprintf (file, "DESCRIPTION");

  8066.   fprintf (file, "</b>");

  8067.   fprintf (file, "</td>");

  8068.   fprintf (file, "</tr>\n");

  8069. 

  8070.   for (j = 0; j < NUM_VERSIONS; j++)

  8071.   {

  8072.     fprintf (file, "<tr>");

  8073.     fprintf (file, "<td>");

  8074.     fprintf (file, bwb_vertable[j].ID);

  8075.     fprintf (file, "</td>");

  8076.     fprintf (file, "<td>");

  8077.     fprintf (file, bwb_vertable[j].Name);

  8078.     fprintf (file, "</td>");

  8079.     fprintf (file, "<td>");

  8080.     fprintf (file, bwb_vertable[j].Description);

  8081.     fprintf (file, "</td>");

  8082.     fprintf (file, "</tr>\n");

  8083.   }

  8084.   fprintf (file, "</table>\n");

  8085.   fprintf (file, "<hr>\n");

  8086. 

  8087. 

  8088.   /* DETAILS */

  8089.   fprintf (file, "<h1>DETAILS</h1><br>\n");

  8090.   fprintf (file, "<table>\n");

  8091. 

  8092.   fprintf (file, "<tr>");

  8093.   fprintf (file, "<td>");

  8094.   fprintf (file, "<b>");

  8095.   fprintf (file, "FUNCTION");

  8096.   fprintf (file, "</b>");

  8097.   fprintf (file, "</td>");

  8098.   for (j = 0; j < NUM_VERSIONS; j++)

  8099.   {

  8100.     fprintf (file, "<td>");

  8101.     fprintf (file, "<b>");

  8102.     fprintf (file, bwb_vertable[j].ID);

  8103.     fprintf (file, "</b>");

  8104.     fprintf (file, "</td>");

  8105.   }

  8106.   fprintf (file, "</tr>\n");

  8107. 

  8108. 

  8109.   /* run through the command table and print comand -vs- OPTION VERSION */

  8110. 

  8111.   for (i = 0; i < NUM_FUNCTIONS; i++)

  8112.   {

  8113.     fprintf (file, "<tr>");

  8114.     fprintf (file, "<td>");

  8115.     fprintf (file, (char *) IntrinsicFunctionTable[i].Syntax);

  8116.     fprintf (file, "</td>");

  8117. 

  8118.     for (j = 0; j < NUM_VERSIONS; j++)

  8119.     {

  8120.       fprintf (file, "<td>");

  8121.       if (IntrinsicFunctionTable[i].OptionVersionBitmask & bwb_vertable[j].

  8122.           OptionVersionValue)

  8123.       {

  8124.         fprintf (file, "X");

  8125.       }

  8126.       else

  8127.       {

  8128.         fprintf (file, " ");

  8129.       }

  8130.       fprintf (file, "</td>");

  8131.     }

  8132.     fprintf (file, "</tr>\n");

  8133.   }

  8134.   fprintf (file, "</table>\n");

  8135.   fprintf (file, "</body></html>\n");

  8136.   fprintf (file, "\n");

  8137. 

  8138.   fflush (file);

  8139. }

  8140. 

  8141. /* 

  8142. --------------------------------------------------------------------------------------------

  8143.                                FNCS

  8144. --------------------------------------------------------------------------------------------

  8145. */

  8146. LineType *

  8147. bwb_FNCS (LineType * l)

  8148. {

  8149.   int n;

  8150.   int t;

  8151.    

  8152.   assert (l != NULL);

  8153.   assert( My != NULL );

  8154.   assert( My->SYSOUT != NULL );

  8155.   assert( My->SYSOUT->cfp != NULL );

  8156. 

  8157. 

  8158.   My->CurrentFile = My->SYSOUT;

  8159.   fprintf (My->SYSOUT->cfp, "BWBASIC FUNCTIONS AVAILABLE:\n");

  8160. 

  8161.   /* run through the command table and print comand names */

  8162. 

  8163.   t = 0;

  8164.   for (n = 0; n < NUM_FUNCTIONS; n++)

  8165.   {

  8166.     fprintf (My->SYSOUT->cfp, IntrinsicFunctionTable[n].Name);

  8167.     if (t < 4)

  8168.     {

  8169.       fprintf (My->SYSOUT->cfp, "\t");

  8170.       t++;

  8171.     }

  8172.     else

  8173.     {

  8174.       fprintf (My->SYSOUT->cfp, "\n");

  8175.       t = 0;

  8176.     }

  8177.   }

  8178.   if (t > 0)

  8179.   {

  8180.     fprintf (My->SYSOUT->cfp, "\n");

  8181.   }

  8182.   ResetConsoleColumn ();

  8183.   return (l);

  8184. }

  8185. 

  8186. /* 

  8187. --------------------------------------------------------------------------------------------

  8188.                                MAINTAINER

  8189. --------------------------------------------------------------------------------------------

  8190. */

  8191. LineType *

  8192. bwb_MAINTAINER (LineType * l)

  8193. {

  8194.    

  8195.   assert (l != NULL);

  8196.   WARN_SYNTAX_ERROR;

  8197.   return (l);

  8198. }

  8199. 

  8200. LineType *

  8201. bwb_MAINTAINER_CMDS (LineType * l)

  8202. {

  8203.    

  8204.   assert (l != NULL);

  8205.   WARN_SYNTAX_ERROR;

  8206.   return (l);

  8207. }

  8208. 

  8209. LineType *

  8210. bwb_MAINTAINER_CMDS_HTML (LineType * l)

  8211. {

  8212.    

  8213.   assert (l != NULL);

  8214.   assert(My != NULL);

  8215.   assert(My->SYSPRN != NULL);

  8216.   assert(My->SYSPRN->cfp != NULL);

  8217.   DumpAllCommandHtmlTable (My->SYSPRN->cfp);

  8218.   return (l);

  8219. }

  8220. 

  8221. LineType *

  8222. bwb_MAINTAINER_CMDS_ID (LineType * l)

  8223. {

  8224.    

  8225.   assert (l != NULL);

  8226.   assert(My != NULL);

  8227.   assert(My->SYSPRN != NULL);

  8228.   assert(My->SYSPRN->cfp != NULL);

  8229.   DumpAllCommandUniqueID (My->SYSPRN->cfp);

  8230.   return (l);

  8231. }

  8232. 

  8233. LineType *

  8234. bwb_MAINTAINER_CMDS_MANUAL (LineType * l)

  8235. {

  8236.    

  8237.   assert (l != NULL);

  8238.   assert(My != NULL);

  8239.   assert(My->SYSPRN != NULL);

  8240.   assert(My->SYSPRN->cfp != NULL);

  8241.   DumpAllCommandSyntax (My->SYSPRN->cfp, TRUE, (OptionVersionType)(-1));

  8242.   return (l);

  8243. }

  8244. 

  8245. LineType *

  8246. bwb_MAINTAINER_CMDS_SWITCH (LineType * l)

  8247. {

  8248.    

  8249.   assert (l != NULL);

  8250.   assert(My != NULL);

  8251.   assert(My->SYSPRN != NULL);

  8252.   assert(My->SYSPRN->cfp != NULL);

  8253.   DumpAllCommandSwitchStatement (My->SYSPRN->cfp);

  8254.   return (l);

  8255. }

  8256. 

  8257. LineType *

  8258. bwb_MAINTAINER_CMDS_TABLE (LineType * l)

  8259. {

  8260.    

  8261.   assert (l != NULL);

  8262.   assert(My != NULL);

  8263.   assert(My->SYSPRN != NULL);

  8264.   assert(My->SYSPRN->cfp != NULL);

  8265.   DumpAllCommandTableDefinitions (My->SYSPRN->cfp);

  8266.   return (l);

  8267. }

  8268. 

  8269. LineType *

  8270. bwb_MAINTAINER_DEBUG (LineType * l)

  8271. {

  8272.    

  8273.   assert (l != NULL);

  8274.   WARN_SYNTAX_ERROR;

  8275.   return (l);

  8276. }

  8277. 

  8278. LineType *

  8279. bwb_MAINTAINER_DEBUG_ON (LineType * l)

  8280. {

  8281.    

  8282.   assert (l != NULL);

  8283.   return (l);

  8284. }

  8285. 

  8286. LineType *

  8287. bwb_MAINTAINER_DEBUG_OFF (LineType * l)

  8288. {

  8289.    

  8290.   assert (l != NULL);

  8291.   return (l);

  8292. }

  8293. 

  8294. LineType *

  8295. bwb_MAINTAINER_FNCS (LineType * l)

  8296. {

  8297.    

  8298.   assert (l != NULL);

  8299.   WARN_SYNTAX_ERROR;

  8300.   return (l);

  8301. }

  8302. 

  8303. LineType *

  8304. bwb_MAINTAINER_FNCS_HTML (LineType * l)

  8305. {

  8306.    

  8307.   assert (l != NULL);

  8308.   assert(My != NULL);

  8309.   assert(My->SYSPRN != NULL);

  8310.   assert(My->SYSPRN->cfp != NULL);

  8311.   DumpAllFunctionHtmlTable (My->SYSPRN->cfp);

  8312.   return (l);

  8313. }

  8314. 

  8315. LineType *

  8316. bwb_MAINTAINER_FNCS_ID (LineType * l)

  8317. {

  8318.    

  8319.   assert (l != NULL);

  8320.   assert(My != NULL);

  8321.   assert(My->SYSPRN != NULL);

  8322.   assert(My->SYSPRN->cfp != NULL);

  8323.   DumpAllFunctionUniqueID (My->SYSPRN->cfp);

  8324.   return (l);

  8325. }

  8326. 

  8327. LineType *

  8328. bwb_MAINTAINER_FNCS_MANUAL (LineType * l)

  8329. {

  8330.    

  8331.   assert (l != NULL);

  8332.   assert(My != NULL);

  8333.   assert(My->SYSPRN != NULL);

  8334.   assert(My->SYSPRN->cfp != NULL);

  8335.   DumpAllFunctionSyntax (My->SYSPRN->cfp, TRUE, (OptionVersionType)(-1));

  8336.   DumpAllOperatorSyntax (My->SYSPRN->cfp, TRUE, (OptionVersionType)(-1));

  8337.   return (l);

  8338. }

  8339. 

  8340. LineType *

  8341. bwb_MAINTAINER_FNCS_SWITCH (LineType * l)

  8342. {

  8343.    

  8344.   assert (l != NULL);

  8345.   assert(My != NULL);

  8346.   assert(My->SYSPRN != NULL);

  8347.   assert(My->SYSPRN->cfp != NULL);

  8348.   DumpAllFunctionSwitch (My->SYSPRN->cfp);

  8349.   return (l);

  8350. }

  8351. 

  8352. LineType *

  8353. bwb_MAINTAINER_FNCS_TABLE (LineType * l)

  8354. {

  8355.    

  8356.   assert (l != NULL);

  8357.   assert(My != NULL);

  8358.   assert(My->SYSPRN != NULL);

  8359.   assert(My->SYSPRN->cfp != NULL);

  8360.   DumpAllFuctionTableDefinitions (My->SYSPRN->cfp);

  8361.   return (l);

  8362. }

  8363. 

  8364. void

  8365. DumpHeader (FILE * file)

  8366. {

  8367.   char c;

  8368.    

  8369.   assert (file != NULL);

  8370.   assert(My != NULL);

  8371.   assert(My->CurrentVersion != NULL);

  8372. 

  8373.   fprintf (file,

  8374.            "============================================================\n");

  8375.   fprintf (file,

  8376.            "                    GENERAL                                 \n");

  8377.   fprintf (file,

  8378.            "============================================================\n");

  8379.   fprintf (file, "\n");

  8380.   fprintf (file, "\n");

  8381. 

  8382.   fprintf (file, "OPTION VERSION \"%s\"\n", My->CurrentVersion->Name);

  8383.   fprintf (file, "REM INTERNAL ID: %s\n", My->CurrentVersion->ID);

  8384.   fprintf (file, "REM DESCRIPTION: %s\n", My->CurrentVersion->Description);

  8385.   fprintf (file, "REM   REFERENCE: %s\n", My->CurrentVersion->ReferenceTitle);

  8386.   fprintf (file, "REM              %s\n",

  8387.            My->CurrentVersion->ReferenceAuthor);

  8388.   fprintf (file, "REM              %s\n",

  8389.            My->CurrentVersion->ReferenceCopyright);

  8390.   fprintf (file, "REM              %s\n", My->CurrentVersion->ReferenceURL1);

  8391.   fprintf (file, "REM              %s\n", My->CurrentVersion->ReferenceURL2);

  8392.   fprintf (file, "REM\n");

  8393. 

  8394.   if (My->CurrentVersion->OptionFlags & (OPTION_STRICT_ON))

  8395.   {

  8396.     fprintf (file, "OPTION STRICT ON\n");

  8397.   }

  8398.   else

  8399.   {

  8400.     fprintf (file, "OPTION STRICT OFF\n");

  8401.   }

  8402. 

  8403.   if (My->CurrentVersion->OptionFlags & (OPTION_ANGLE_DEGREES))

  8404.   {

  8405.     fprintf (file, "OPTION ANGLE DEGREES\n");

  8406.   }

  8407.   else if (My->CurrentVersion->OptionFlags & (OPTION_ANGLE_GRADIANS))

  8408.   {

  8409.     fprintf (file, "OPTION ANGLE GRADIANS\n");

  8410.   }

  8411.   else

  8412.   {

  8413.     fprintf (file, "OPTION ANGLE RADIANS\n");

  8414.   }

  8415. 

  8416.   if (My->CurrentVersion->OptionFlags & (OPTION_BUGS_ON))

  8417.   {

  8418.     fprintf (file, "OPTION BUGS ON\n");

  8419.   }

  8420.   else

  8421.   {

  8422.     fprintf (file, "OPTION BUGS OFF\n");

  8423.   }

  8424. 

  8425.   if (My->CurrentVersion->OptionFlags & (OPTION_LABELS_ON))

  8426.   {

  8427.     fprintf (file, "OPTION LABELS ON\n");

  8428.   }

  8429.   else

  8430.   {

  8431.     fprintf (file, "OPTION LABELS OFF\n");

  8432.   }

  8433. 

  8434.   if (My->CurrentVersion->OptionFlags & (OPTION_COMPARE_TEXT))

  8435.   {

  8436.     fprintf (file, "OPTION COMPARE TEXT\n");

  8437.   }

  8438.   else

  8439.   {

  8440.     fprintf (file, "OPTION COMPARE BINARY\n");

  8441.   }

  8442. 

  8443.   if (My->CurrentVersion->OptionFlags & (OPTION_COVERAGE_ON))

  8444.   {

  8445.     fprintf (file, "OPTION COVERAGE ON\n");

  8446.   }

  8447.   else

  8448.   {

  8449.     fprintf (file, "OPTION COVERAGE OFF\n");

  8450.   }

  8451. 

  8452.   if (My->CurrentVersion->OptionFlags & (OPTION_TRACE_ON))

  8453.   {

  8454.     fprintf (file, "OPTION TRACE ON\n");

  8455.   }

  8456.   else

  8457.   {

  8458.     fprintf (file, "OPTION TRACE OFF\n");

  8459.   }

  8460. 

  8461.   if (My->CurrentVersion->OptionFlags & (OPTION_ERROR_GOSUB))

  8462.   {

  8463.     fprintf (file, "OPTION ERROR GOSUB\n");

  8464.   }

  8465.   else

  8466.   {

  8467.     fprintf (file, "OPTION ERROR GOTO\n");

  8468.   }

  8469. 

  8470.   if (My->CurrentVersion->OptionFlags & (OPTION_EXPLICIT_ON))

  8471.   {

  8472.     fprintf (file, "OPTION EXPLICIT\n");

  8473.   }

  8474.   else

  8475.   {

  8476.     fprintf (file, "OPTION IMPLICIT\n");

  8477.   }

  8478. 

  8479.   fprintf (file, "OPTION BASE          %d\n",

  8480.            My->CurrentVersion->OptionBaseInteger);

  8481.   fprintf (file, "OPTION RECLEN        %d\n",

  8482.            My->CurrentVersion->OptionReclenInteger);

  8483.   fprintf (file, "OPTION DATE          \"%s\"\n",

  8484.            My->CurrentVersion->OptionDateFormat);

  8485.   fprintf (file, "OPTION TIME          \"%s\"\n",

  8486.            My->CurrentVersion->OptionTimeFormat);

  8487. 

  8488.   c = My->CurrentVersion->OptionStringChar;

  8489.   if (!bwb_isgraph (c))

  8490.   {

  8491.     c = ' ';

  8492.   };

  8493.   fprintf (file, "OPTION PUNCT STRING        \"%c\"\n", c);

  8494. 

  8495.   c = My->CurrentVersion->OptionDoubleChar;

  8496.   if (!bwb_isgraph (c))

  8497.   {

  8498.     c = ' ';

  8499.   };

  8500.   fprintf (file, "OPTION PUNCT DOUBLE        \"%c\"\n", c);

  8501. 

  8502.   c = My->CurrentVersion->OptionSingleChar;

  8503.   if (!bwb_isgraph (c))

  8504.   {

  8505.     c = ' ';

  8506.   };

  8507.   fprintf (file, "OPTION PUNCT SINGLE        \"%c\"\n", c);

  8508. 

  8509.   c = My->CurrentVersion->OptionCurrencyChar;

  8510.   if (!bwb_isgraph (c))

  8511.   {

  8512.     c = ' ';

  8513.   };

  8514.   fprintf (file, "OPTION PUNCT CURRENCY      \"%c\"\n", c);

  8515. 

  8516.   c = My->CurrentVersion->OptionLongChar;

  8517.   if (!bwb_isgraph (c))

  8518.   {

  8519.     c = ' ';

  8520.   };

  8521.   fprintf (file, "OPTION PUNCT LONG          \"%c\"\n", c);

  8522. 

  8523.   c = My->CurrentVersion->OptionIntegerChar;

  8524.   if (!bwb_isgraph (c))

  8525.   {

  8526.     c = ' ';

  8527.   };

  8528.   fprintf (file, "OPTION PUNCT INTEGER       \"%c\"\n", c);

  8529. 

  8530.   c = My->CurrentVersion->OptionByteChar;

  8531.   if (!bwb_isgraph (c))

  8532.   {

  8533.     c = ' ';

  8534.   };

  8535.   fprintf (file, "OPTION PUNCT BYTE          \"%c\"\n", c);

  8536. 

  8537.   c = My->CurrentVersion->OptionQuoteChar;

  8538.   if (!bwb_isgraph (c))

  8539.   {

  8540.     c = ' ';

  8541.   };

  8542.   fprintf (file, "OPTION PUNCT QUOTE         \"%c\"\n", c);

  8543. 

  8544.   c = My->CurrentVersion->OptionCommentChar;

  8545.   if (!bwb_isgraph (c))

  8546.   {

  8547.     c = ' ';

  8548.   };

  8549.   fprintf (file, "OPTION PUNCT COMMENT       \"%c\"\n", c);

  8550. 

  8551.   c = My->CurrentVersion->OptionStatementChar;

  8552.   if (!bwb_isgraph (c))

  8553.   {

  8554.     c = ' ';

  8555.   };

  8556.   fprintf (file, "OPTION PUNCT STATEMENT     \"%c\"\n", c);

  8557. 

  8558.   c = My->CurrentVersion->OptionPrintChar;

  8559.   if (!bwb_isgraph (c))

  8560.   {

  8561.     c = ' ';

  8562.   };

  8563.   fprintf (file, "OPTION PUNCT PRINT         \"%c\"\n", c);

  8564. 

  8565.   c = My->CurrentVersion->OptionInputChar;

  8566.   if (!bwb_isgraph (c))

  8567.   {

  8568.     c = ' ';

  8569.   };

  8570.   fprintf (file, "OPTION PUNCT INPUT         \"%c\"\n", c);

  8571. 

  8572.   c = My->CurrentVersion->OptionImageChar;

  8573.   if (!bwb_isgraph (c))

  8574.   {

  8575.     c = ' ';

  8576.   };

  8577.   fprintf (file, "OPTION PUNCT IMAGE         \"%c\"\n", c);

  8578. 

  8579.   c = My->CurrentVersion->OptionLparenChar;

  8580.   if (!bwb_isgraph (c))

  8581.   {

  8582.     c = ' ';

  8583.   };

  8584.   fprintf (file, "OPTION PUNCT LPAREN        \"%c\"\n", c);

  8585. 

  8586.   c = My->CurrentVersion->OptionRparenChar;

  8587.   if (!bwb_isgraph (c))

  8588.   {

  8589.     c = ' ';

  8590.   };

  8591.   fprintf (file, "OPTION PUNCT RPAREN        \"%c\"\n", c);

  8592. 

  8593.   c = My->CurrentVersion->OptionFilenumChar;

  8594.   if (!bwb_isgraph (c))

  8595.   {

  8596.     c = ' ';

  8597.   };

  8598.   fprintf (file, "OPTION PUNCT FILENUM       \"%c\"\n", c);

  8599. 

  8600.   c = My->CurrentVersion->OptionAtChar;

  8601.   if (!bwb_isgraph (c))

  8602.   {

  8603.     c = ' ';

  8604.   };

  8605.   fprintf (file, "OPTION PUNCT AT            \"%c\"\n", c);

  8606. 

  8607.   c = My->CurrentVersion->OptionUsingDigit;

  8608.   if (!bwb_isgraph (c))

  8609.   {

  8610.     c = ' ';

  8611.   };

  8612.   fprintf (file, "OPTION USING DIGIT   \"%c\"\n", c);

  8613. 

  8614.   c = My->CurrentVersion->OptionUsingComma;

  8615.   if (!bwb_isgraph (c))

  8616.   {

  8617.     c = ' ';

  8618.   };

  8619.   fprintf (file, "OPTION USING COMMA   \"%c\"\n", c);

  8620. 

  8621.   c = My->CurrentVersion->OptionUsingPeriod;

  8622.   if (!bwb_isgraph (c))

  8623.   {

  8624.     c = ' ';

  8625.   };

  8626.   fprintf (file, "OPTION USING PERIOD  \"%c\"\n", c);

  8627. 

  8628.   c = My->CurrentVersion->OptionUsingPlus;

  8629.   if (!bwb_isgraph (c))

  8630.   {

  8631.     c = ' ';

  8632.   };

  8633.   fprintf (file, "OPTION USING PLUS    \"%c\"\n", c);

  8634. 

  8635.   c = My->CurrentVersion->OptionUsingMinus;

  8636.   if (!bwb_isgraph (c))

  8637.   {

  8638.     c = ' ';

  8639.   };

  8640.   fprintf (file, "OPTION USING MINUS   \"%c\"\n", c);

  8641. 

  8642.   c = My->CurrentVersion->OptionUsingExrad;

  8643.   if (!bwb_isgraph (c))

  8644.   {

  8645.     c = ' ';

  8646.   };

  8647.   fprintf (file, "OPTION USING EXRAD   \"%c\"\n", c);

  8648. 

  8649.   c = My->CurrentVersion->OptionUsingDollar;

  8650.   if (!bwb_isgraph (c))

  8651.   {

  8652.     c = ' ';

  8653.   };

  8654.   fprintf (file, "OPTION USING DOLLAR  \"%c\"\n", c);

  8655. 

  8656.   c = My->CurrentVersion->OptionUsingFiller;

  8657.   if (!bwb_isgraph (c))

  8658.   {

  8659.     c = ' ';

  8660.   };

  8661.   fprintf (file, "OPTION USING FILLER  \"%c\"\n", c);

  8662. 

  8663.   c = My->CurrentVersion->OptionUsingLiteral;

  8664.   if (!bwb_isgraph (c))

  8665.   {

  8666.     c = ' ';

  8667.   };

  8668.   fprintf (file, "OPTION USING LITERAL \"%c\"\n", c);

  8669. 

  8670.   c = My->CurrentVersion->OptionUsingFirst;

  8671.   if (!bwb_isgraph (c))

  8672.   {

  8673.     c = ' ';

  8674.   };

  8675.   fprintf (file, "OPTION USING FIRST   \"%c\"\n", c);

  8676. 

  8677.   c = My->CurrentVersion->OptionUsingAll;

  8678.   if (!bwb_isgraph (c))

  8679.   {

  8680.     c = ' ';

  8681.   };

  8682.   fprintf (file, "OPTION USING ALL     \"%c\"\n", c);

  8683. 

  8684.   c = My->CurrentVersion->OptionUsingLength;

  8685.   if (!bwb_isgraph (c))

  8686.   {

  8687.     c = ' ';

  8688.   };

  8689.   fprintf (file, "OPTION USING LENGTH  \"%c\"\n", c);

  8690. 

  8691.   fprintf (file, "\n");

  8692.   fprintf (file, "\n");

  8693.   fflush (file);

  8694. }

  8695. 

  8696. LineType *

  8697. bwb_MAINTAINER_MANUAL (LineType * l)

  8698. {

  8699.    

  8700.   assert (l != NULL);

  8701. 

  8702.   DumpHeader (My->SYSPRN->cfp);

  8703.   DumpAllCommandSyntax (My->SYSPRN->cfp, FALSE,

  8704.                         My->CurrentVersion->OptionVersionValue);

  8705.   DumpAllFunctionSyntax (My->SYSPRN->cfp, FALSE,

  8706.                          My->CurrentVersion->OptionVersionValue);

  8707.   DumpAllOperatorSyntax (My->SYSPRN->cfp, FALSE,

  8708.                          My->CurrentVersion->OptionVersionValue);

  8709.   return (l);

  8710. }

  8711. 

  8712. LineType *

  8713. bwb_MAINTAINER_STACK (LineType * l)

  8714. {

  8715.   /*

  8716.      dump the current execution stack, 

  8717.      Leftmost is the top, 

  8718.      Rigthmost is the bottom. 

  8719.    */

  8720.   StackType *StackItem;

  8721.    

  8722.   assert (l != NULL);

  8723. 

  8724.   for (StackItem = My->StackHead; StackItem != NULL;

  8725.        StackItem = StackItem->next)

  8726.   {

  8727.     LineType *l;

  8728. 

  8729.     l = StackItem->line;

  8730.     if (l != NULL)

  8731.     {

  8732.       fprintf (My->SYSOUT->cfp, "%d:", l->number);

  8733.     }

  8734.   }

  8735.   fprintf (My->SYSOUT->cfp, "\n");

  8736.   ResetConsoleColumn ();

  8737.   return (l);

  8738. }

  8739. 

  8740. 

  8741. /***************************************************************

  8742.   

  8743.         FUNCTION:       IntrinsicFunction_init()

  8744.   

  8745.         DESCRIPTION:    This command initializes the function

  8746.                         linked list, placing all predefined functions

  8747.                         in the list.

  8748.   

  8749. ***************************************************************/

  8750. 

  8751. int

  8752. IntrinsicFunction_init (void)

  8753. {

  8754.   int n;

  8755.    

  8756. 

  8757.   for (n = 0; n < NUM_FUNCTIONS; n++)

  8758.   {

  8759.     IntrinsicFunctionDefinitionCheck (&(IntrinsicFunctionTable[n]));

  8760.   }

  8761.   return TRUE;

  8762. }

  8763. 

  8764. 

  8765. 

  8766. VariableType *

  8767. IntrinsicFunction_deffn (int argc, VariableType * argv, UserFunctionType * f)

  8768. {

  8769.   /* 

  8770.      The generic handler for user defined functions.  

  8771.      When called by exp_function(), f->id will be set to the line number of a specific DEF USR.

  8772.    */

  8773.   VariableType *v;

  8774.   VariableType *argn;

  8775.   int i;

  8776.   LineType *call_line;

  8777.   StackType *save_elevel;

  8778.    

  8779.   assert (argc >= 0);

  8780.   assert (argv != NULL);

  8781.   assert (f != NULL);

  8782.   assert(My != NULL);

  8783. 

  8784.   /* initialize the variable if necessary */

  8785. 

  8786.   /* these errors should not occur */

  8787.   if (f == NULL)

  8788.   {

  8789.     WARN_INTERNAL_ERROR;

  8790.     return NULL;

  8791.   }

  8792.   if (f->line == NULL)

  8793.   {

  8794.     WARN_INTERNAL_ERROR;

  8795.     return NULL;

  8796.   }

  8797.   if (argv == NULL)

  8798.   {

  8799.     WARN_INTERNAL_ERROR;

  8800.     return NULL;

  8801.   }

  8802.   if (f->ParameterCount == 0xFF)

  8803.   {

  8804.     /* VARIANT */

  8805.   }

  8806.   else if (argc != f->ParameterCount)

  8807.   {

  8808.     WARN_INTERNAL_ERROR;

  8809.     return NULL;

  8810.   }

  8811.   if (f->ParameterCount == 0xFF)

  8812.   {

  8813.     /* VARIANT */

  8814.     f->local_variable = argv;

  8815.   }

  8816.   else if (argc > 0)

  8817.   {

  8818.     v = f->local_variable;

  8819.     argn = argv;

  8820.     for (i = 0; i < argc; i++)

  8821.     {

  8822.       argn = argn->next;

  8823.       if (v == NULL)

  8824.       {

  8825.         WARN_INTERNAL_ERROR;

  8826.         return NULL;

  8827.       }

  8828.       if (argn == NULL)

  8829.       {

  8830.         WARN_INTERNAL_ERROR;

  8831.         return NULL;

  8832.       }

  8833.       if (VAR_IS_STRING (v) != VAR_IS_STRING (argn))

  8834.       {

  8835.         WARN_INTERNAL_ERROR;

  8836.         return NULL;

  8837.       }

  8838.       if (is_empty_string (v->name) == FALSE)

  8839.       {

  8840.         int IsError;

  8841.         IsError = 0;

  8842.         switch (v->VariableTypeCode)

  8843.         {

  8844.         case ByteTypeCode:

  8845.           IsError = NumberValueCheck (P1BYT, PARAM_NUMBER);

  8846.           break;

  8847.         case IntegerTypeCode:

  8848.           IsError = NumberValueCheck (P1INT, PARAM_NUMBER);

  8849.           break;

  8850.         case LongTypeCode:

  8851.           IsError = NumberValueCheck (P1LNG, PARAM_NUMBER);

  8852.           break;

  8853.         case CurrencyTypeCode:

  8854.           IsError = NumberValueCheck (P1CUR, PARAM_NUMBER);

  8855.           break;

  8856.         case SingleTypeCode:

  8857.           IsError = NumberValueCheck (P1FLT, PARAM_NUMBER);

  8858.           break;

  8859.         case DoubleTypeCode:

  8860.           IsError = NumberValueCheck (P1DBL, PARAM_NUMBER);

  8861.           break;

  8862.         case StringTypeCode:

  8863.           IsError = StringLengthCheck (P1ANY, PARAM_LENGTH);

  8864.           break;

  8865.         default:

  8866.           WARN_TYPE_MISMATCH;

  8867.           return NULL;

  8868.         }

  8869.         if (IsError != 0)

  8870.         {

  8871.           WARN_ILLEGAL_FUNCTION_CALL;

  8872.           return argv;

  8873.         }

  8874.       }

  8875.       v = v->next;

  8876.     }

  8877.   }

  8878.   /* OK */

  8879.   call_line = f->line;                /* line to call for function */

  8880.   call_line->position = f->startpos;

  8881. 

  8882.   if (call_line->cmdnum == C_DEF)

  8883.   {

  8884.     if (line_skip_EqualChar (call_line) == FALSE)

  8885.     {

  8886.       WARN_INTERNAL_ERROR;

  8887.       return NULL;

  8888.     }

  8889.   }

  8890. /* PUSH STACK */

  8891. 

  8892.   save_elevel = My->StackHead;

  8893.   if (bwb_incexec ())

  8894.   {

  8895.     /* OK */

  8896.     My->StackHead->line = call_line;

  8897.     My->StackHead->ExecCode = EXEC_FUNCTION;

  8898.   }

  8899.   else

  8900.   {

  8901.     /* ERROR */

  8902.     WARN_OUT_OF_MEMORY;

  8903.     return NULL;

  8904.   }

  8905. 

  8906. 

  8907.   /* create variable chain */

  8908.   if (f->ParameterCount == 0xFF)

  8909.   {

  8910.     /* VARIANT */

  8911.   }

  8912.   else if (argc > 0)

  8913.   {

  8914.     VariableType *source = NULL;        /* source variable */

  8915.     source = f->local_variable;

  8916.     argn = argv;

  8917.     for (i = 0; i < argc; i++)

  8918.     {

  8919.       argn = argn->next;

  8920.       /* copy the name */

  8921.       bwb_strcpy (argn->name, source->name);

  8922. 

  8923.       if (VAR_IS_STRING (source))

  8924.       {

  8925.       }

  8926.       else

  8927.       {

  8928.         int IsError;

  8929.         double Value;

  8930.         VariantType variant;

  8931.         CLEAR_VARIANT (&variant);

  8932. 

  8933.         if (var_get (argn, &variant) == FALSE)

  8934.         {

  8935.           WARN_VARIABLE_NOT_DECLARED;

  8936.           return NULL;

  8937.         }

  8938.         if (variant.VariantTypeCode == StringTypeCode)

  8939.         {

  8940.           WARN_TYPE_MISMATCH;

  8941.           return NULL;

  8942.         }

  8943.         Value = variant.Number;

  8944.         IsError = 0;

  8945.         switch (source->VariableTypeCode)

  8946.         {

  8947.         case ByteTypeCode:

  8948.           IsError = NumberValueCheck (P1BYT, Value);

  8949.           Value = bwb_rint (Value);

  8950.           break;

  8951.         case IntegerTypeCode:

  8952.           IsError = NumberValueCheck (P1INT, Value);

  8953.           Value = bwb_rint (Value);

  8954.           break;

  8955.         case LongTypeCode:

  8956.           IsError = NumberValueCheck (P1LNG, Value);

  8957.           Value = bwb_rint (Value);

  8958.           break;

  8959.         case CurrencyTypeCode:

  8960.           IsError = NumberValueCheck (P1CUR, Value);

  8961.           Value = bwb_rint (Value);

  8962.           break;

  8963.         case SingleTypeCode:

  8964.           IsError = NumberValueCheck (P1FLT, Value);

  8965.           break;

  8966.         case DoubleTypeCode:

  8967.           IsError = NumberValueCheck (P1DBL, Value);

  8968.           break;

  8969.         case StringTypeCode:

  8970.           WARN_TYPE_MISMATCH;

  8971.           return NULL;

  8972.           /* break; */

  8973.         default:

  8974.           WARN_TYPE_MISMATCH;

  8975.           return NULL;

  8976.         }

  8977.         if (IsError != 0)

  8978.         {

  8979.           WARN_ILLEGAL_FUNCTION_CALL;

  8980.           return argv;

  8981.         }

  8982.         variant.Number = Value;

  8983.         if (var_set (argn, &variant) == FALSE)

  8984.         {

  8985.           WARN_VARIABLE_NOT_DECLARED;

  8986.           return NULL;

  8987.         }

  8988.       }

  8989.       source = source->next;

  8990.     }

  8991.   }

  8992.   if (call_line->cmdnum == C_DEF)

  8993.   {

  8994.     VariantType x;

  8995.     VariantType *X;

  8996. 

  8997.     X = &x;

  8998.     CLEAR_VARIANT (X);

  8999.     /* the function return variable is hidden */

  9000.     My->StackHead->local_variable = argv->next;

  9001.     /* var_islocal() uses the LoopTopLine to find local variables */

  9002.     My->StackHead->LoopTopLine = call_line;        /* FUNCTION, SUB */

  9003. 

  9004.     /* evaluate the expression */

  9005.     if (line_read_expression (call_line, X) == FALSE)        /* IntrinsicFunction_deffn */

  9006.     {

  9007.       WARN_SYNTAX_ERROR;

  9008.       goto EXIT;

  9009.     }

  9010. 

  9011.     /* save the value */

  9012.     switch (X->VariantTypeCode)

  9013.     {

  9014.     case ByteTypeCode:

  9015.     case IntegerTypeCode:

  9016.     case LongTypeCode:

  9017.     case CurrencyTypeCode:

  9018.     case SingleTypeCode:

  9019.     case DoubleTypeCode:

  9020.       if (argv->VariableTypeCode == StringTypeCode)

  9021.       {

  9022.         WARN_TYPE_MISMATCH;

  9023.         goto EXIT;

  9024.       }

  9025.       /* OK */

  9026.       {

  9027.         int IsError;

  9028.         double Value;

  9029. 

  9030.         IsError = 0;

  9031.         Value = X->Number;

  9032.         /* VerifyNumeric */

  9033.         if (isnan (Value))

  9034.         {

  9035.                /*** FATAL - INTERNAL ERROR - SHOULD NEVER HAPPEN ***/

  9036.           WARN_INTERNAL_ERROR;

  9037.           return FALSE;

  9038.         }

  9039.         if (isinf (Value))

  9040.         {

  9041.           /* - Evaluation of an expression results in an overflow

  9042.            * (nonfatal, the recommended recovery procedure is to supply

  9043.            * machine in- finity with the algebraically correct sign and

  9044.            * continue). */

  9045.           if (Value < 0)

  9046.           {

  9047.             Value = MINDBL;

  9048.           }

  9049.           else

  9050.           {

  9051.             Value = MAXDBL;

  9052.           }

  9053.           if (WARN_OVERFLOW)

  9054.           {

  9055.             /* ERROR */

  9056.             goto EXIT;

  9057.           }

  9058.           /* CONTINUE */

  9059.         }

  9060.         /* OK */

  9061.         switch (argv->VariableTypeCode)

  9062.         {

  9063.         case ByteTypeCode:

  9064.           IsError = NumberValueCheck (P1BYT, Value);

  9065.           Value = bwb_rint (Value);

  9066.           break;

  9067.         case IntegerTypeCode:

  9068.           IsError = NumberValueCheck (P1INT, Value);

  9069.           Value = bwb_rint (Value);

  9070.           break;

  9071.         case LongTypeCode:

  9072.           IsError = NumberValueCheck (P1LNG, Value);

  9073.           Value = bwb_rint (Value);

  9074.           break;

  9075.         case CurrencyTypeCode:

  9076.           IsError = NumberValueCheck (P1CUR, Value);

  9077.           Value = bwb_rint (Value);

  9078.           break;

  9079.         case SingleTypeCode:

  9080.           IsError = NumberValueCheck (P1FLT, Value);

  9081.           break;

  9082.         case DoubleTypeCode:

  9083.           IsError = NumberValueCheck (P1DBL, Value);

  9084.           break;

  9085.         default:

  9086.           WARN_TYPE_MISMATCH;

  9087.           goto EXIT;

  9088.           /* break; */

  9089.         }

  9090.         if (IsError != 0)

  9091.         {

  9092.           if (WARN_OVERFLOW)

  9093.           {

  9094.             /* ERROR */

  9095.             goto EXIT;

  9096.           }

  9097.           /* CONTINUE */

  9098.         }

  9099.         /* assign Value */

  9100.         RESULT_NUMBER = Value;

  9101.       }

  9102.       break;

  9103.     case StringTypeCode:

  9104.       if (argv->VariableTypeCode != StringTypeCode)

  9105.       {

  9106.         WARN_TYPE_MISMATCH;

  9107.         goto EXIT;

  9108.       }

  9109.       /* OK */

  9110.       if (RESULT_BUFFER != My->MaxLenBuffer)

  9111.       {

  9112.         WARN_INTERNAL_ERROR;

  9113.         goto EXIT;

  9114.       }

  9115.       if (X->Length > MAXLEN)

  9116.       {

  9117.         WARN_STRING_TOO_LONG;        /* IntrinsicFunction_deffn */

  9118.         X->Length = MAXLEN;

  9119.       }

  9120.       bwb_memcpy (RESULT_BUFFER, X->Buffer, X->Length);

  9121.       RESULT_LENGTH = X->Length;

  9122.       break;

  9123.     default:

  9124.       WARN_TYPE_MISMATCH;

  9125.       goto EXIT;

  9126.       /* break; */

  9127.     }

  9128.   EXIT:

  9129.     RELEASE_VARIANT (X);

  9130. 

  9131. 

  9132.     /* break variable chain */

  9133.     My->StackHead->local_variable = NULL;

  9134. 

  9135. 

  9136. 

  9137. /* POP STACK */

  9138.     bwb_decexec ();

  9139. 

  9140.   }

  9141.   else

  9142.   {

  9143.     /* the function return variable is visible */

  9144.     My->StackHead->local_variable = argv;

  9145.     /* var_islocal() uses the LoopTopLine to find local variables */

  9146.     My->StackHead->LoopTopLine = call_line;        /* FUNCTION, SUB */

  9147.     /* execute until function returns */

  9148.     while (My->StackHead != save_elevel)

  9149.     {

  9150.       bwb_execline ();

  9151.     }

  9152.   }

  9153. 

  9154.   if (f->ParameterCount == 0xFF)

  9155.   {

  9156.     /* VARIANT */

  9157.     f->local_variable = NULL;

  9158.   }

  9159. 

  9160.   if (is_empty_string (argv->name) == FALSE)

  9161.   {

  9162.     int IsError;

  9163. 

  9164.     IsError = 0;

  9165.     switch (argv->VariableTypeCode)

  9166.     {

  9167.     case ByteTypeCode:

  9168.       IsError = NumberValueCheck (P1BYT, RESULT_NUMBER);

  9169.       break;

  9170.     case IntegerTypeCode:

  9171.       IsError = NumberValueCheck (P1INT, RESULT_NUMBER);

  9172.       break;

  9173.     case LongTypeCode:

  9174.       IsError = NumberValueCheck (P1LNG, RESULT_NUMBER);

  9175.       break;

  9176.     case CurrencyTypeCode:

  9177.       IsError = NumberValueCheck (P1CUR, RESULT_NUMBER);

  9178.       break;

  9179.     case SingleTypeCode:

  9180.       IsError = NumberValueCheck (P1FLT, RESULT_NUMBER);

  9181.       break;

  9182.     case DoubleTypeCode:

  9183.       IsError = NumberValueCheck (P1DBL, RESULT_NUMBER);

  9184.       break;

  9185.     case StringTypeCode:

  9186.       IsError = StringLengthCheck (P1ANY, RESULT_LENGTH);

  9187.       break;

  9188.     default:

  9189.       /* no check */

  9190.       break;

  9191.     }

  9192.     if (IsError != 0)

  9193.     {

  9194.       if (WARN_OVERFLOW)

  9195.       {

  9196.         /* ERROR */

  9197.       }

  9198.       /* CONTINUE */

  9199.     }

  9200.   }

  9201.   return argv;

  9202. }

  9203. 

  9204. /***************************************************************

  9205.   

  9206.         FUNCTION:       IntrinsicFunction_find()

  9207.   

  9208.         DESCRIPTION:    This C function attempts to locate

  9209.                         a BASIC function with the specified name.

  9210.                         If successful, it returns a pointer to

  9211.                         the C structure for the BASIC function,

  9212.                         if not successful, it returns NULL.

  9213.   

  9214. ***************************************************************/

  9215. 

  9216. extern int

  9217. IntrinsicFunction_name (char *name)

  9218. {

  9219.   /* search INTRINSIC functions */

  9220.   IntrinsicFunctionType *f;

  9221.   int i;

  9222.    

  9223.   assert (name != NULL);

  9224.   assert(My != NULL);

  9225.   assert(My->CurrentVersion != NULL);

  9226. 

  9227. 

  9228. #if THE_PRICE_IS_RIGHT

  9229.   /* start with the closest function, without going over */

  9230.   i = VarTypeIndex (name[0]);

  9231.   if (i < 0)

  9232.   {

  9233.     /* non-alpha */

  9234.     return FALSE;

  9235.   }

  9236.   i = My->IntrinsicFunctionStart[i];        /* first function starting with this letter */

  9237.   if (i < 0)

  9238.   {

  9239.     /* NOT FOUND */

  9240.     return FALSE;

  9241.   }

  9242. #else /* THE_PRICE_IS_RIGHT */

  9243.   i = 0;

  9244. #endif /* THE_PRICE_IS_RIGHT */

  9245.   for (; i < NUM_FUNCTIONS; i++)

  9246.   {

  9247.     f = &IntrinsicFunctionTable[i];

  9248.     if (My->CurrentVersion->OptionVersionValue & f->OptionVersionBitmask)

  9249.     {

  9250.       int result;

  9251. 

  9252.       result = bwb_stricmp (f->Name, name);

  9253. 

  9254.       if (result == 0)

  9255.       {

  9256.         /* FOUND */

  9257.         return TRUE;

  9258.       }

  9259.       if (result > 0 /* found > searched */ )

  9260.       {

  9261.         /* NOT FOUND */

  9262.         return FALSE;

  9263.       }

  9264.     }

  9265.   }

  9266.   /* NOT FOUND */

  9267.   return FALSE;

  9268. }

  9269. 

  9270. 

  9271. IntrinsicFunctionType *

  9272. IntrinsicFunction_find_exact (char *name, int ParameterCount,

  9273.                               ParamBitsType ParameterTypes)

  9274. {

  9275.   IntrinsicFunctionType *f;

  9276.   int i;

  9277.    

  9278.   assert (name != NULL);

  9279.   assert(My != NULL);

  9280.   assert(My->CurrentVersion != NULL);

  9281. 

  9282.   /* search INTRINSIC functions */

  9283. #if THE_PRICE_IS_RIGHT

  9284.   /* start with the closest function, without going over */

  9285.   i = VarTypeIndex (name[0]);

  9286.   if (i < 0)

  9287.   {

  9288.     /* non-alpha */

  9289.     return NULL;

  9290.   }

  9291.   i = My->IntrinsicFunctionStart[i];        /* first function starting with this letter */

  9292.   if (i < 0)

  9293.   {

  9294.     /* NOT FOUND */

  9295.     return NULL;

  9296.   }

  9297. #else /* THE_PRICE_IS_RIGHT */

  9298.   i = 0;

  9299. #endif /* THE_PRICE_IS_RIGHT */

  9300.   for (; i < NUM_FUNCTIONS; i++)

  9301.   {

  9302.     f = &IntrinsicFunctionTable[i];

  9303.     if (My->CurrentVersion->OptionVersionValue & f->OptionVersionBitmask)

  9304.     {

  9305.       if (f->ParameterCount == ParameterCount)

  9306.       {

  9307.         if (f->ParameterTypes == ParameterTypes)

  9308.         {

  9309.           int result;

  9310. 

  9311.           result = bwb_stricmp (f->Name, name);

  9312. 

  9313.           if (result == 0)

  9314.           {

  9315.             /* FOUND */

  9316.             return f;

  9317.           }

  9318.           if (result > 0 /* found > searched */ )

  9319.           {

  9320.             /* NOT FOUND */

  9321.             return NULL;

  9322.           }

  9323.         }

  9324.       }

  9325.     }

  9326.   }

  9327.   /* NOT FOUND */

  9328.   return NULL;

  9329. }

  9330. 

  9331. static VariableType *

  9332. find_variable_by_type (char *name, int dimensions, char VariableTypeCode)

  9333. {

  9334.   VariableType *v = NULL;

  9335.    

  9336.   assert (name != NULL);

  9337. 

  9338.   v = var_find (name, dimensions, FALSE);

  9339.   if (v)

  9340.   {

  9341.     if (VAR_IS_STRING (v))

  9342.     {

  9343.       if (VariableTypeCode == StringTypeCode)

  9344.       {

  9345.         /* found */

  9346.         return v;

  9347.       }

  9348.     }

  9349.     else

  9350.     {

  9351.       if (VariableTypeCode != StringTypeCode)

  9352.       {

  9353.         /* found */

  9354.         return v;

  9355.       }

  9356.     }

  9357.   }

  9358.   /* not found */

  9359.   return NULL;

  9360. }

  9361. 

  9362. /* 

  9363. --------------------------------------------------------------------------------------------

  9364.                                CHANGE

  9365. --------------------------------------------------------------------------------------------

  9366. */

  9367. 

  9368. LineType *

  9369. bwb_CHANGE (LineType * l)

  9370. {

  9371.   /* SYNTAX: CHANGE A$ TO X */

  9372.   /* SYNTAX: CHANGE X TO A$ */

  9373.   char varname[NameLengthMax + 1];

  9374.   VariableType *v;

  9375.   VariableType *A;

  9376.   VariableType *X;

  9377.   int IsStringToArray;

  9378.    

  9379.   assert (l != NULL);

  9380. 

  9381.   v = NULL;

  9382.   A = NULL;

  9383.   X = NULL;

  9384.   IsStringToArray = FALSE;

  9385. 

  9386.   /* get 1st variable */

  9387.   if (line_read_varname (l, varname) == FALSE)

  9388.   {

  9389.     WARN_SYNTAX_ERROR;

  9390.     return (l);

  9391.   }

  9392. 

  9393.   v = find_variable_by_type (varname, 0, StringTypeCode);

  9394.   if (v)

  9395.   {

  9396.     /* STRING to ARRAY */

  9397.     A = v;

  9398.     IsStringToArray = TRUE;

  9399.   }

  9400.   else

  9401.   {

  9402.     /* ARRAY to STRING */

  9403.     v = find_variable_by_type (varname, 1, DoubleTypeCode);

  9404.     if (v)

  9405.     {

  9406.       X = v;

  9407.       IsStringToArray = FALSE;

  9408.     }

  9409.   }

  9410.   if (v == NULL)

  9411.   {

  9412.     WARN_VARIABLE_NOT_DECLARED;

  9413.     return (l);

  9414.   }

  9415. 

  9416.   /* get "TO" */

  9417.   if (line_skip_word (l, "TO") == FALSE)

  9418.   {

  9419.     WARN_SYNTAX_ERROR;

  9420.     return (l);

  9421.   }

  9422.   /* get 2nd variable */

  9423.   if (line_read_varname (l, varname) == FALSE)

  9424.   {

  9425.     WARN_SYNTAX_ERROR;

  9426.     return (l);

  9427.   }

  9428. 

  9429.   if (IsStringToArray)

  9430.   {

  9431.     /* STRING to ARRAY */

  9432.     v = find_variable_by_type (varname, 1, DoubleTypeCode);

  9433.     if (v == NULL)

  9434.     {

  9435.       v = var_find (varname, 1, TRUE);

  9436.     }

  9437.     if (v)

  9438.     {

  9439.       X = v;

  9440.     }

  9441.   }

  9442.   else

  9443.   {

  9444.     /* ARRAY to STRING */

  9445.     v = find_variable_by_type (varname, 0, StringTypeCode);

  9446.     if (v == NULL)

  9447.     {

  9448.       v = var_find (varname, 0, TRUE);

  9449.     }

  9450.     if (v)

  9451.     {

  9452.       A = v;

  9453.     }

  9454.   }

  9455. 

  9456.   if (v == NULL)

  9457.   {

  9458.     WARN_VARIABLE_NOT_DECLARED;

  9459.     return (l);

  9460.   }

  9461.   assert(A != NULL);

  9462.   assert(X != NULL);

  9463.   if (IsStringToArray)

  9464.   {

  9465.     /* CHANGE A$ TO X */

  9466.     int i;

  9467.     int n;

  9468.     char *a;

  9469.     DoubleType *x;

  9470.     unsigned long t;

  9471. 

  9472.     if (A->Value.String == NULL)

  9473.     {

  9474.       WARN_INTERNAL_ERROR;

  9475.       return (l);

  9476.     }

  9477.     if (A->Value.String->sbuffer == NULL)

  9478.     {

  9479.       WARN_INTERNAL_ERROR;

  9480.       return (l);

  9481.     }

  9482.     /* variable storage is a mess, we bypass that tradition here. */

  9483.     t = 1;

  9484.     for (n = 0; n < X->dimensions; n++)

  9485.     {

  9486.       t *= X->UBOUND[n] - X->LBOUND[n] + 1;

  9487.     }

  9488.     if (t <= A->Value.String->length)

  9489.     {

  9490.       WARN_SUBSCRIPT_OUT_OF_RANGE;

  9491.       return (l);

  9492.     }

  9493.     n = A->Value.String->length;

  9494.     a = A->Value.String->sbuffer;

  9495.     x = X->Value.Number;

  9496.     *x = n;

  9497.     x++;

  9498.     for (i = 0; i < n; i++)

  9499.     {

  9500.       char C;

  9501.       DoubleType V;

  9502. 

  9503.       C = *a;

  9504.       V = C;

  9505.       *x = V;

  9506.       x++;

  9507.       a++;

  9508.     }

  9509.   }

  9510.   else

  9511.   {

  9512.     /* CHANGE X TO A$ */

  9513.     int i;

  9514.     int n;

  9515.     char *a;

  9516.     DoubleType *x;

  9517.     unsigned long t;

  9518. 

  9519.     /* variable storage is a mess, we bypass that tradition here. */

  9520.     t = 1;

  9521.     for (n = 0; n < X->dimensions; n++)

  9522.     {

  9523.       t *= X->UBOUND[n] - X->LBOUND[n] + 1;

  9524.     }

  9525.     if (t <= 1)

  9526.     {

  9527.       WARN_SUBSCRIPT_OUT_OF_RANGE;

  9528.       return (l);

  9529.     }

  9530.     if (t > MAXLEN)

  9531.     {

  9532.       WARN_STRING_TOO_LONG;        /* bwb_CHANGE */

  9533.       t = MAXLEN;

  9534.     }

  9535.     if (A->Value.String == NULL)

  9536.     {

  9537.       if ((A->Value.String =

  9538.            (StringType *) calloc (1, sizeof (StringType))) == NULL)

  9539.       {

  9540.         WARN_OUT_OF_MEMORY;

  9541.         return (l);

  9542.       }

  9543.       A->Value.String->sbuffer = NULL;

  9544.       A->Value.String->length = 0;

  9545.     }

  9546.     if (A->Value.String->sbuffer != NULL)

  9547.     {

  9548.       free (A->Value.String->sbuffer);

  9549.       A->Value.String->sbuffer = NULL;

  9550.       A->Value.String->length = 0;

  9551.     }

  9552.     if (A->Value.String->sbuffer == NULL)

  9553.     {

  9554.       A->Value.String->length = 0;

  9555.       if ((A->Value.String->sbuffer =

  9556.            (char *) calloc (t + 1 /* NulChar */ , sizeof (char))) == NULL)

  9557.       {

  9558.         WARN_OUT_OF_MEMORY;

  9559.         return (l);

  9560.       }

  9561.     }

  9562.     a = A->Value.String->sbuffer;

  9563.     x = X->Value.Number;

  9564.     n = (int) bwb_rint (*x);

  9565.     if (n > MAXLEN)

  9566.     {

  9567.       WARN_STRING_TOO_LONG;        /* bwb_CHANGE */

  9568.       n = MAXLEN;

  9569.     }

  9570.     A->Value.String->length = n;

  9571.     x++;

  9572.     for (i = 0; i < n; i++)

  9573.     {

  9574.       char C;

  9575.       DoubleType V;

  9576. 

  9577.       V = *x;

  9578.       C = V;

  9579.       *a = C;

  9580.       x++;

  9581.       a++;

  9582.     }

  9583.   }

  9584.   return (l);

  9585. }

  9586. 

  9587. /* 

  9588. --------------------------------------------------------------------------------------------

  9589.                                CONSOLE

  9590. --------------------------------------------------------------------------------------------

  9591. */

  9592. 

  9593. LineType *

  9594. bwb_CONSOLE (LineType * l)

  9595. {

  9596.   /* SYNTAX: CONSOLE */

  9597.   /* SYNTAX: CONSOLE WIDTH width */

  9598.    

  9599.   assert (l != NULL);

  9600.   assert(My != NULL);

  9601.   assert(My->SYSPRN != NULL);

  9602.   assert(My->SYSPRN->cfp != NULL);

  9603.   assert(My->SYSOUT != NULL);

  9604.   assert(My->SYSOUT->cfp != NULL);

  9605. 

  9606. 

  9607.   if (My->IsPrinter == TRUE)

  9608.   {

  9609.     /* reset printer column */

  9610.     if (My->SYSPRN->col != 1)

  9611.     {

  9612.       fputc ('\n', My->SYSPRN->cfp);

  9613.       My->SYSPRN->col = 1;

  9614.     }

  9615.     My->IsPrinter = FALSE;

  9616.   }

  9617.   if (line_skip_word (l, "WIDTH"))

  9618.   {

  9619.     int width;

  9620. 

  9621.     width = 0;

  9622.     if (line_read_integer_expression (l, &width) == FALSE)

  9623.     {

  9624.       WARN_ILLEGAL_FUNCTION_CALL;

  9625.       return (l);

  9626.     }

  9627.     if (width < 0)

  9628.     {

  9629.       WARN_ILLEGAL_FUNCTION_CALL;

  9630.       return (l);

  9631.     }

  9632.     My->SYSOUT->width = width;

  9633.   }

  9634. 

  9635.   return (l);

  9636. }

  9637. 

  9638. /* 

  9639. --------------------------------------------------------------------------------------------

  9640.                                LPRINTER

  9641. --------------------------------------------------------------------------------------------

  9642. */

  9643. 

  9644. 

  9645. LineType *

  9646. bwb_LPRINTER (LineType * l)

  9647. {

  9648.   /* SYNTAX: LPRINTER */

  9649.   /* SYNTAX: LPRINTER WIDTH width */

  9650.    

  9651.   assert (l != NULL);

  9652.   assert(My != NULL);

  9653.   assert(My->SYSPRN != NULL);

  9654.   assert(My->SYSPRN->cfp != NULL);

  9655.   assert(My->SYSOUT != NULL);

  9656.   assert(My->SYSOUT->cfp != NULL);

  9657. 

  9658. 

  9659.   if (My->IsPrinter == FALSE)

  9660.   {

  9661.     /* reset console column */

  9662.     if (My->SYSOUT->col != 1)

  9663.     {

  9664.       fputc ('\n', My->SYSOUT->cfp);

  9665.       My->SYSOUT->col = 1;

  9666.     }

  9667.     My->IsPrinter = TRUE;

  9668.   }

  9669.   if (line_skip_word (l, "WIDTH"))

  9670.   {

  9671.     int width;

  9672. 

  9673.     width = 0;

  9674.     if (line_read_integer_expression (l, &width) == FALSE)

  9675.     {

  9676.       WARN_ILLEGAL_FUNCTION_CALL;

  9677.       return (l);

  9678.     }

  9679.     if (width < 0)

  9680.     {

  9681.       WARN_ILLEGAL_FUNCTION_CALL;

  9682.       return (l);

  9683.     }

  9684.     My->SYSPRN->width = width;

  9685.   }

  9686.   return (l);

  9687. }

  9688. 

  9689. extern void

  9690. bwb_fclose (FILE * file)

  9691. {

  9692.   if (file == NULL)

  9693.   {

  9694.     /* don't close */

  9695.   }

  9696.   else if (file == stdin)

  9697.   {

  9698.     /* don't close */

  9699.   }

  9700.   else if (file == stdout)

  9701.   {

  9702.     /* don't close */

  9703.   }

  9704.   else if (file == stderr)

  9705.   {

  9706.     /* don't close */

  9707.   }

  9708.   else

  9709.   {

  9710.     fclose (file);

  9711.   }

  9712. }

  9713. LineType *

  9714. bwb_LPT (LineType * l)

  9715. {

  9716.   /* SYNTAX: LPT */

  9717.   /* SYNTAX: LPT filename$ */

  9718.   FILE *file;

  9719.   char *filename;

  9720.    

  9721.   assert (l != NULL);

  9722.   assert(My != NULL);

  9723.   assert(My->SYSOUT != NULL);

  9724.   assert(My->SYSOUT->cfp != NULL);

  9725. 

  9726. 

  9727.   file = NULL;

  9728.   filename = NULL;

  9729.   if (line_is_eol (l))

  9730.   {

  9731.     /* OK */

  9732.     file = stderr;

  9733.   }

  9734.   else if (line_read_string_expression (l, &filename))

  9735.   {

  9736.     /* OK */

  9737.     if (is_empty_string (filename))

  9738.     {

  9739.       WARN_BAD_FILE_NAME;

  9740.       return (l);

  9741.     }

  9742.     file = fopen (filename, "w");

  9743.     free (filename);

  9744.   }

  9745.   else

  9746.   {

  9747.     WARN_SYNTAX_ERROR;

  9748.     return (l);

  9749.   }

  9750.   if (file == NULL)

  9751.   {

  9752.     WARN_BAD_FILE_NAME;

  9753.     return (l);

  9754.   }

  9755.   bwb_fclose (My->SYSOUT->cfp);

  9756.   My->SYSOUT->cfp = file;

  9757.   return (l);

  9758. }

  9759. 

  9760. LineType *

  9761. bwb_PTP (LineType * l)

  9762. {

  9763.   /* SYNTAX: PTP */

  9764.   /* SYNTAX: PTP filename$ */

  9765.   FILE *file;

  9766.   char *filename;

  9767.    

  9768.   assert (l != NULL);

  9769.   assert(My != NULL);

  9770.   assert(My->SYSOUT != NULL);

  9771.   assert(My->SYSOUT->cfp != NULL);

  9772. 

  9773.   file = NULL;

  9774.   filename = NULL;

  9775.   if (line_is_eol (l))

  9776.   {

  9777.     /* OK */

  9778.     file = fopen ("PTP", "w");

  9779.   }

  9780.   else if (line_read_string_expression (l, &filename))

  9781.   {

  9782.     /* OK */

  9783.     if (is_empty_string (filename))

  9784.     {

  9785.       WARN_BAD_FILE_NAME;

  9786.       return (l);

  9787.     }

  9788.     file = fopen (filename, "w");

  9789.     free (filename);

  9790.   }

  9791.   else

  9792.   {

  9793.     WARN_SYNTAX_ERROR;

  9794.     return (l);

  9795.   }

  9796.   if (file == NULL)

  9797.   {

  9798.     WARN_BAD_FILE_NAME;

  9799.     return (l);

  9800.   }

  9801.   bwb_fclose (My->SYSOUT->cfp);

  9802.   My->SYSOUT->cfp = file;

  9803.   return (l);

  9804. }

  9805. 

  9806. LineType *

  9807. bwb_PTR (LineType * l)

  9808. {

  9809.   /* SYNTAX: PTR */

  9810.   /* SYNTAX: PTR filename$ */

  9811.   FILE *file;

  9812.   char *filename;

  9813.    

  9814.   assert (l != NULL);

  9815.   assert(My != NULL);

  9816.   assert(My->SYSIN != NULL);

  9817.   assert(My->SYSIN->cfp != NULL);

  9818. 

  9819.   file = NULL;

  9820.   filename = NULL;

  9821.   if (line_is_eol (l))

  9822.   {

  9823.     /* OK */

  9824.     file = fopen ("PTR", "r");

  9825.   }

  9826.   else if (line_read_string_expression (l, &filename))

  9827.   {

  9828.     /* OK */

  9829.     if (is_empty_string (filename))

  9830.     {

  9831.       WARN_BAD_FILE_NAME;

  9832.       return (l);

  9833.     }

  9834.     file = fopen (filename, "r");

  9835.     free (filename);

  9836.   }

  9837.   else

  9838.   {

  9839.     WARN_SYNTAX_ERROR;

  9840.     return (l);

  9841.   }

  9842.   if (file == NULL)

  9843.   {

  9844.     WARN_BAD_FILE_NAME;

  9845.     return (l);

  9846.   }

  9847.   bwb_fclose (My->SYSIN->cfp);

  9848.   My->SYSIN->cfp = file;

  9849.   return (l);

  9850. }

  9851. 

  9852. LineType *

  9853. bwb_TTY (LineType * l)

  9854. {

  9855.   /* SYNTAX: TTY */

  9856.   assert (l != NULL);

  9857.    

  9858.   bwb_TTY_IN (l);

  9859.   bwb_TTY_OUT (l);

  9860.   return (l);

  9861. }

  9862. 

  9863. LineType *

  9864. bwb_TTY_IN (LineType * l)

  9865. {

  9866.   /* SYNTAX: TTY IN */

  9867.   assert (l != NULL);

  9868.   assert(My != NULL);

  9869.   assert(My->SYSIN != NULL);

  9870.   assert(My->SYSIN->cfp != NULL);

  9871.    

  9872.   bwb_fclose (My->SYSIN->cfp);

  9873.   My->SYSIN->cfp = stdin;

  9874.   return (l);

  9875. }

  9876. 

  9877. LineType *

  9878. bwb_TTY_OUT (LineType * l)

  9879. {

  9880.   /* SYNTAX: TTY OUT */

  9881.   assert (l != NULL);

  9882.   assert(My != NULL);

  9883.   assert(My->SYSOUT != NULL);

  9884.   assert(My->SYSOUT->cfp != NULL);

  9885.    

  9886.   bwb_fclose (My->SYSOUT->cfp);

  9887.   My->SYSOUT->cfp = stdout;

  9888.   return (l);

  9889. }

  9890. 

  9891. /* 

  9892. --------------------------------------------------------------------------------------------

  9893.                                CREATE

  9894. --------------------------------------------------------------------------------------------

  9895. */

  9896. 

  9897. LineType *

  9898. bwb_CREATE (LineType * l)

  9899. {

  9900.   /* SYNTAX: CREATE filename$ [ RECL reclen ] AS filenum [ BUFF number ] [ RECS size ] */

  9901.   int FileNumber;

  9902.   int width;

  9903.   int buffnum;

  9904.   int recsnum;

  9905.   char *filename;

  9906.    

  9907.   assert (l != NULL);

  9908.   assert(My != NULL);

  9909. 

  9910. 

  9911.   FileNumber = 0;

  9912.   width = 0;

  9913.   buffnum = 0;

  9914.   recsnum = 0;

  9915.   filename = NULL;

  9916.   if (line_read_string_expression (l, &filename) == FALSE)

  9917.   {

  9918.     WARN_SYNTAX_ERROR;

  9919.     return (l);

  9920.   }

  9921.   if (is_empty_string (filename))

  9922.   {

  9923.     WARN_BAD_FILE_NAME;

  9924.     return (l);

  9925.   }

  9926.   if (line_skip_word (l, "RECL"))

  9927.   {

  9928.     if (line_read_integer_expression (l, &width) == FALSE)

  9929.     {

  9930.       WARN_FIELD_OVERFLOW;

  9931.       return (l);

  9932.     }

  9933.     if (width <= 0)

  9934.     {

  9935.       WARN_FIELD_OVERFLOW;

  9936.       return (l);

  9937.     }

  9938.   }

  9939.   if (line_skip_word (l, "AS") == FALSE)

  9940.   {

  9941.     WARN_SYNTAX_ERROR;

  9942.     return (l);

  9943.   }

  9944.   if (line_read_integer_expression (l, &FileNumber) == FALSE)

  9945.   {

  9946.     WARN_BAD_FILE_NUMBER;

  9947.     return (l);

  9948.   }

  9949.   if (FileNumber <= 0)

  9950.   {

  9951.     WARN_BAD_FILE_NUMBER;

  9952.     return (l);

  9953.   }

  9954.   if (line_skip_word (l, "BUFF"))

  9955.   {

  9956.     if (line_read_integer_expression (l, &buffnum) == FALSE)

  9957.     {

  9958.       WARN_FIELD_OVERFLOW;

  9959.       return (l);

  9960.     }

  9961.     if (buffnum <= 0)

  9962.     {

  9963.       WARN_FIELD_OVERFLOW;

  9964.       return (l);

  9965.     }

  9966.   }

  9967.   if (line_skip_word (l, "RECS"))

  9968.   {

  9969.     if (line_read_integer_expression (l, &recsnum) == FALSE)

  9970.     {

  9971.       WARN_FIELD_OVERFLOW;

  9972.       return (l);

  9973.     }

  9974.     if (recsnum <= 0)

  9975.     {

  9976.       WARN_FIELD_OVERFLOW;

  9977.       return (l);

  9978.     }

  9979.   }

  9980.   /* now, we are ready to create the file */

  9981.   My->CurrentFile = find_file_by_number (FileNumber);

  9982.   if (My->CurrentFile == NULL)

  9983.   {

  9984.     My->CurrentFile = file_new ();

  9985.     My->CurrentFile->FileNumber = FileNumber;

  9986.   }

  9987.   if (My->CurrentFile->FileName != NULL)

  9988.   {

  9989.     free (My->CurrentFile->FileName);

  9990.     My->CurrentFile->FileName = NULL;

  9991.   }

  9992.   My->CurrentFile->FileName = filename;

  9993.   filename = NULL;

  9994.   if (My->CurrentFile->DevMode != DEVMODE_CLOSED)

  9995.   {

  9996.     My->CurrentFile->DevMode = DEVMODE_CLOSED;

  9997.   }

  9998.   if (My->CurrentFile->cfp != NULL)

  9999.   {

  10000.     bwb_fclose (My->CurrentFile->cfp);

  10001.     My->CurrentFile->cfp = NULL;

  10002.   }

  10003.   if (My->CurrentFile->buffer != NULL)

  10004.   {

  10005.     free (My->CurrentFile->buffer);

  10006.     My->CurrentFile->buffer = NULL;

  10007.   }

  10008.   My->CurrentFile->width = 0;

  10009.   My->CurrentFile->col = 1;

  10010.   My->CurrentFile->row = 1;

  10011.   My->CurrentFile->delimit = ',';

  10012.   /* truncate to zero length or create text file for update  (reading and writing) */

  10013.   if (is_empty_string (My->CurrentFile->FileName))

  10014.   {

  10015.     WARN_BAD_FILE_NAME;

  10016.     return (l);

  10017.   }

  10018.   if ((My->CurrentFile->cfp =

  10019.        fopen (My->CurrentFile->FileName, "w+")) == NULL)

  10020.   {

  10021.     WARN_BAD_FILE_NAME;

  10022.     return (l);

  10023.   }

  10024.   if (width > 0)

  10025.   {

  10026.     My->CurrentFile->width = width;

  10027.     My->CurrentFile->DevMode = DEVMODE_RANDOM;

  10028.   }

  10029.   else

  10030.   {

  10031.     My->CurrentFile->DevMode = DEVMODE_INPUT | DEVMODE_OUTPUT;

  10032.   }

  10033.   return (l);

  10034. }

  10035. 

  10036. /* 

  10037. --------------------------------------------------------------------------------------------

  10038.                                COPY

  10039. --------------------------------------------------------------------------------------------

  10040. */

  10041. 

  10042. static void

  10043. bwb_copy_file (char *Source, char *Target)

  10044. {

  10045.   FILE *source;

  10046.   FILE *target;

  10047.    

  10048.   source = NULL;

  10049.   target = NULL;

  10050. 

  10051.   if (is_empty_string (Source))

  10052.   {

  10053.     WARN_BAD_FILE_NAME;

  10054.     goto EXIT;

  10055.   }

  10056.   if (is_empty_string (Target))

  10057.   {

  10058.     WARN_BAD_FILE_NAME;

  10059.     goto EXIT;

  10060.   }

  10061.   source = fopen (Source, "rb");

  10062.   if (source == NULL)

  10063.   {

  10064.     WARN_BAD_FILE_NAME;

  10065.     goto EXIT;

  10066.   }

  10067.   target = fopen (Target, "wb");

  10068.   if (target == NULL)

  10069.   {

  10070.     WARN_BAD_FILE_NAME;

  10071.     goto EXIT;

  10072.   }

  10073.   /* OK */

  10074.   while (TRUE)

  10075.   {

  10076.     int C;

  10077. 

  10078.     C = fgetc (source);

  10079.     if (C < 0 /* EOF */  || feof (source) || ferror (source))

  10080.     {

  10081.       break;

  10082.     }

  10083.     fputc (C, target);

  10084.     if (ferror (target))

  10085.     {

  10086.       break;

  10087.     }

  10088.   }

  10089.   /* DONE */

  10090. EXIT:

  10091.   if (source)

  10092.   {

  10093.     fclose (source);

  10094.   }

  10095.   if (target)

  10096.   {

  10097.     fclose (target);

  10098.   }

  10099. }

  10100. 

  10101. LineType *

  10102. bwb_COPY (LineType * Line)

  10103. {

  10104.   /* SYNTAX: COPY source$ TO target$ */

  10105.   char *Source;

  10106.   char *Target;

  10107.    

  10108.   assert (Line != NULL);

  10109. 

  10110.   Source = NULL;

  10111.   Target = NULL;

  10112.   if (line_read_string_expression (Line, &Source) == FALSE)

  10113.   {

  10114.     WARN_SYNTAX_ERROR;

  10115.     goto EXIT;

  10116.   }

  10117.   if (line_skip_word (Line, "TO") == FALSE)

  10118.   {

  10119.     WARN_SYNTAX_ERROR;

  10120.     goto EXIT;

  10121.   }

  10122.   if (line_read_string_expression (Line, &Target) == FALSE)

  10123.   {

  10124.     WARN_SYNTAX_ERROR;

  10125.     goto EXIT;

  10126.   }

  10127.   bwb_copy_file (Source, Target);

  10128. EXIT:

  10129.   if (Source)

  10130.   {

  10131.     free (Source);

  10132.   }

  10133.   if (Target)

  10134.   {

  10135.     free (Target);

  10136.   }

  10137.   return (Line);

  10138. }

  10139. 

  10140. /* 

  10141. --------------------------------------------------------------------------------------------

  10142.                                DISPLAY

  10143. --------------------------------------------------------------------------------------------

  10144. */

  10145. 

  10146. static void

  10147. bwb_display_file (char *Source)

  10148. {

  10149.   FILE *source;

  10150.    

  10151.   assert (My->SYSOUT != NULL);

  10152.   assert (My->SYSOUT->cfp != NULL);

  10153. 

  10154.   source = NULL;

  10155. 

  10156.   if (is_empty_string (Source))

  10157.   {

  10158.     WARN_BAD_FILE_NAME;

  10159.     goto EXIT;

  10160.   }

  10161.   source = fopen (Source, "rb");

  10162.   if (source == NULL)

  10163.   {

  10164.     WARN_BAD_FILE_NAME;

  10165.     goto EXIT;

  10166.   }

  10167.   /* OK */

  10168.   while (TRUE)

  10169.   {

  10170.     int C;

  10171. 

  10172.     C = fgetc (source);

  10173.     if (C < 0 /* EOF */  || feof (source) || ferror (source))

  10174.     {

  10175.       break;

  10176.     }

  10177.     fputc (C, My->SYSOUT->cfp);

  10178.   }

  10179.   /* DONE */

  10180. EXIT:

  10181.   if (source)

  10182.   {

  10183.     fclose (source);

  10184.   }

  10185. }

  10186. 

  10187. LineType *

  10188. bwb_DISPLAY (LineType * Line)

  10189. {

  10190.   /* SYNTAX: DISPLAY source$  */

  10191.   char *Source;

  10192.    

  10193.   assert (Line != NULL);

  10194.   Source = NULL;

  10195.   if (line_read_string_expression (Line, &Source) == FALSE)

  10196.   {

  10197.     WARN_SYNTAX_ERROR;

  10198.     goto EXIT;

  10199.   }

  10200.   bwb_display_file (Source);

  10201. EXIT:

  10202.   if (Source)

  10203.   {

  10204.     free (Source);

  10205.   }

  10206.   return (Line);

  10207. }

  10208. 

  10209. /* 

  10210. --------------------------------------------------------------------------------------------

  10211.                                EOF

  10212. --------------------------------------------------------------------------------------------

  10213. */

  10214. 

  10215. 

  10216. 

  10217. /* EOF */