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sym_compiler.c

/* Copyright (C) 1995 Bjoern Beutel. */

/* Description. =============================================================*/

/* This module compiles malaga symbol files. */

/* Includes. ================================================================*/

#include <stdio.h>
#include <stdlib.h>
#include <time.h>
#include <setjmp.h>
#include "basic.h"
#include "pools.h"
#include "values.h"
#include "scanner.h"
#include "files.h"
#include "malaga_files.h"
#include "symbols.h"
#include "avl_trees.h"
#include "hangul.h"
#include "sym_compiler.h"

/* Types. ===================================================================*/

typedef struct /* A node of the symbol table. */
{ 
  avln_node_t node; /* The symbol tree is an AVLN tree. */
  value_t atoms; /* List of atoms in VALUE_POOL. */
  symbol_t symbol; /* Symbol which this node represents. */
} symbol_node_t;

/* Variables. ===============================================================*/

static symbol_node_t *symbol_tree; /* The symbol table, sorted by names. */
static symbol_node_t *atoms_tree; /* The symbol table, sorted by atoms. */

static pool_t symbol_pool; /* Symbol entries. */
static pool_t value_pool; /* Lists of atomic symbols. */
static pool_t string_pool; /* Symbol names. */

/* Functions. ===============================================================*/

static int_t 
compare_by_atoms( avl_node_t *node1, avl_node_t *node2 )
/* Callback function for AVL tree functions. */
{
  return compare_atom_lists( ((symbol_node_t *) node1)->atoms,
                             ((symbol_node_t *) node2)->atoms );
}

/*---------------------------------------------------------------------------*/

static symbol_node_t *
find_symbol_node( string_t name )
/* Find and return a symbol node with given name. 
 * If no symbol node exists, return NULL. */
{
  symbol_node_t *node;
  int_t result;

  /* Look for existing node. */
  node = symbol_tree;
  while (node != NULL) 
  { 
    result = strcmp_no_case( name, node->node.name );
    if (result < 0) 
      node = (symbol_node_t *) node->node.left;
    else if (result > 0) 
      node = (symbol_node_t *) node->node.right;
    else 
      return node;
  }
  return NULL;
}

/*---------------------------------------------------------------------------*/

static symbol_t 
find_atomic_symbol( string_t name )
/* Find symbol NAME and check if it is atomic. Return the symbol. */
{
  symbol_node_t *node;

  node = find_symbol_node( name );
  if (node == NULL) 
    complain( "Symbol \"%s\" is not defined.", name );
  else if (get_list_length( node->atoms ) > 1) 
    complain( "Symbol \"%s\" is not atomic.", name );
  return node->symbol;
}

/*---------------------------------------------------------------------------*/

static void 
enter_symbol( string_t name, value_t atoms )
/* Enter NAME as a symbol name with atomic symbol list ATOMS
 * in the symbol tree. */
{
  symbol_node_t *node, *atoms_node;
  symbol_entry_t symbol_entry;
  int_t result;

  node = find_symbol_node( name );
  if (atoms == NULL) 
  { 
    /* Make atom list for atomic symbol. */
    top = 0;
    if (node != NULL) 
      push_symbol_value( node->symbol );
    else 
      push_symbol_value( pool_item_count( symbol_pool ) );
    build_list(1);
    atoms = value_stack[0];
  }
  if (node != NULL) 
  { 
    /* Compare with previous definition. */
    if (compare_atom_lists( atoms, node->atoms ) != 0) 
    { 
      complain( "Atom list for \"%s\" differs in previous definition.", 
            node->node.name );
    }
  }
  else 
  { 
    /* Create new symbol node. */
    node = new_mem( sizeof( symbol_node_t ) );
    node->node.name = copy_string_to_pool( string_pool, name, 
                                 &symbol_entry.name );
    node->symbol = pool_item_count( symbol_pool );
    if (node->symbol >= SYMBOL_MAX) 
      complain( "Too many symbols." );
    node->atoms = copy_value_to_pool( value_pool, atoms, &symbol_entry.atoms );
    insert_avln_node( (avln_node_t *) node, (avln_node_t **) &symbol_tree );
    copy_to_pool( symbol_pool, &symbol_entry, 1, NULL );
    if (get_list_length( atoms ) > 1) 
    { 
      /* Check that there is no identical atom list. */
      atoms_node = atoms_tree;
      while (atoms_node != NULL) 
      { 
      result = compare_atom_lists( atoms, atoms_node->atoms );
        if (result < 0) 
        atoms_node = (symbol_node_t *) atoms_node->node.left;
        else if (result > 0) 
        atoms_node = (symbol_node_t *) atoms_node->node.right;
      else 
      {
        complain( "Atom list is the same as for \"%s\".", 
                atoms_node->node.name );
      }
      }

      /* Create new atoms node. */
      atoms_node = new_mem( sizeof( symbol_node_t ) );
      atoms_node->node.name = node->node.name;
      atoms_node->symbol = node->symbol;
      atoms_node->atoms = node->atoms;
      insert_avl_node( (avl_node_t *) atoms_node, (avl_node_t **) &atoms_tree, 
                       compare_by_atoms );
    }
  }
}

/*---------------------------------------------------------------------------*/

static void 
parse_atom_list( value_t *atom_list_p )
/* Stack effects: (nothing) -> LIST.
 * Parse a list of symbols. Return it as *ATOM_LIST_P. */
{
  int_t i;

  top = 0;
  test_token( '<' );
  do 
  { 
    read_next_token();
    test_token( TOK_IDENT );
    push_symbol_value( find_atomic_symbol( token_name ) );
    
    /* Test if SYMBOL already occurs in symbol list. */
    for (i = 0; i < top-1; i++) 
    { 
      if (values_equal( value_stack[ top - 1 ], value_stack[i] )) 
      complain( "Symbol \"%s\" twice in atom list.", token_name );
    }
    /* Read after TOKEN_NAME. */
    read_next_token();
  } while (next_token == ',');
  
  parse_token( '>' );
  if (top < 2) 
    complain( "Atom list must contain at least two atoms." );
  build_list( top );
  *atom_list_p = value_stack[0];
}

/*---------------------------------------------------------------------------*/

static void 
parse_symbols( void )
/* Parse a symbol file. */
{
  string_t file_name, symbol_name;
  value_t atom_list;
          
  while (next_token != EOF) 
  { 
    if (next_token == TOK_INCLUDE) 
    { 
      /* Include a new file. */
      read_next_token();
      test_token( TOK_STRING );
      file_name = absolute_path( token_string, current_file_name() );
      read_next_token();
      begin_include( file_name );
      parse_symbols();
      end_include();
      free_mem( &file_name );
      parse_token( ';' );
    } 
    else 
    { 
      /* Read a symbol. */
      test_token( TOK_IDENT );
      symbol_name = new_string( token_name, NULL );
      read_next_token();
      if (next_token == TOK_ASSIGN) 
      { 
      read_next_token();
        parse_atom_list( &atom_list );
      } 
      else 
      atom_list = NULL;
      enter_symbol( symbol_name, atom_list );
      free_mem( &symbol_name );
      parse_token( ';' );
    } 
  }
}

/*---------------------------------------------------------------------------*/

static void 
write_symbols( string_t file_name )
/* Write symbol table to file FILE_NAME. */
{ 
  FILE *stream;
  symbol_header_t symbol_header;

  stream = open_stream( file_name, "wb" );

  /* Set rule file header data. */
  set_header( &symbol_header.common_header, SYMBOL_FILE, SYMBOL_CODE_VERSION );
  symbol_header.symbol_count = pool_item_count( symbol_pool );
  symbol_header.values_size = pool_item_count( value_pool );
  symbol_header.strings_size = pool_item_count( string_pool );

  /* Write header. */
  write_vector( &symbol_header, sizeof( symbol_header ), 1, stream, 
            file_name ); 

  /* Write tables to stream. */
  write_pool( symbol_pool, stream, file_name );
  write_pool( value_pool, stream, file_name );
  write_pool( string_pool, stream, file_name );

  close_stream( &stream, file_name );
}

/*---------------------------------------------------------------------------*/

static void 
init_sym_compiler( void )
/* Initialise this module. */
{
  symbol_pool = new_pool( sizeof( symbol_entry_t ) );
  value_pool = new_pool( sizeof( symbol_t ) );
  string_pool = new_pool( sizeof( char_t ) );
}
  
/*---------------------------------------------------------------------------*/

static void free_tree( avl_node_t **node_p )
{
  if (*node_p == NULL) 
    return;
  free_tree( &(*node_p)->left );
  free_tree( &(*node_p)->right );
  free_mem( node_p );
}

/*---------------------------------------------------------------------------*/

static void 
terminate_sym_compiler( void )
/* Terminate this module. */
{
  free_tree( (avl_node_t **) &symbol_tree );
  free_tree( (avl_node_t **) &atoms_tree );
  free_pool( &symbol_pool );
  free_pool( &value_pool );
  free_pool( &string_pool );
}
  
/*---------------------------------------------------------------------------*/

void 
compile_symbol_file( string_t source_file, string_t object_file,
                     string_t old_symbol_file )
/* Read symbol file SOURCE_FILE and create translated file OBJECT_FILE.
 * If OLD_SYMBOL_FILE != NULL, all symbols from this file are included in
 * the new file. */
{
  value_t atoms;
  symbol_t symbol;
    
  init_sym_compiler();
  if (old_symbol_file != NULL) 
  { 
    /* Enter the symbols from OLD_SYMBOL_FILE. */
    init_symbols( old_symbol_file );
    init_hangul();
    for (symbol = 0; symbol < symbol_count(); symbol++) 
    { 
      atoms = get_atoms( symbol );
      if (get_list_length( atoms ) <= 1) 
      atoms = NULL;
      enter_symbol( get_symbol_name( symbol ), atoms );
    }
    terminate_symbols();
    set_esym_stamp();
  } 
  else 
  { 
    /* Enter the standard symbols in the same order as in "values.h". */
    enter_symbol( "nil", NULL );
    enter_symbol( "yes", NULL );
    enter_symbol( "no", NULL );
    enter_symbol( "symbol", NULL );
    enter_symbol( "string", NULL );
    enter_symbol( "number", NULL );
    enter_symbol( "list", NULL );
    enter_symbol( "record", NULL );
    set_sym_stamp();
  }
  begin_include( source_file ); 
  TRY 
  { 
    parse_symbols();
    if (next_token != EOF) 
      complain( "Symbol definition expected." );
  } 
  IF_ERROR 
  { 
    print_text( error_text, " (\"%s\", line %d, column %d)", 
            name_in_path( current_file_name() ), 
            current_line_number(), current_column() );
    if (in_emacs_malaga_mode) 
    { 
      printf( "SHOW \"%s\":%d:%d\n", current_file_name(), 
            current_line_number(), current_column() );
    }
  } 
  FINALLY 
    end_includes();
  END_TRY;
  write_symbols( object_file );
  terminate_sym_compiler();
  terminate_hangul();
}

/* End of file. =============================================================*/

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