Ejemplo n.º 1
0
int find_next_pragma(char * orig_buffer, items * input, int start, int end)
{
  int found, counter, index;
  item Item;

  if ((start < 0) || (start >= input->number_of_items) ||
      (end < 0) || (end >= input->number_of_items) ||
      (start > end))
    return -1;

  found = 0;
  counter = 0;
  for (index = start; index <= end; index++)
    {
      Item = input->data[index];

      if (DEBUG_PRAGMAS)
	printf("Scanning %s at %i\n", types_enum2str(Item.type), get_line_number(orig_buffer, Item.begin));

      switch (Item.type)
	{
	case PRAGMA_IF:
	  counter++;
	  break;

	case PRAGMA_ELSE:
	  if (counter == 0)
	    return index;
	  break;

	case PRAGMA_ENDIF:
	  if (counter == 0)
	    return index;
	  counter--;
	  break;

	default:
	  printf("Invalid pragma type\n"); /* other types must be filtered out before */
	  exit(-1);
	  break;
	}
    }

  printf("Cound not find closing pragma starting from %i and ending at %i\n", 
	 get_line_number(orig_buffer, input->data[start].begin),
	 get_line_number(orig_buffer, input->data[end].end));
  exit(-1);
}
Ejemplo n.º 2
0
/**
 * Subroutine that simulates one cache event at a time.
 * @param rw The type of access, READ or WRITE
 * @param address The address that is being accessed
 * @param stats The struct that you are supposed to store the stats in
 */
void cache_access (char rw, uint64_t address, struct cache_stats_t *stats) {
	int hit;
	uint64_t tag, line_number, offset, i;
	cache_line *current_line;
	cache_block *current_block; 
	cache_block *hit_block;
	stats -> accesses++;
	my_cache->timer++;
	tag = get_tag(address);
	line_number = get_line_number(address);
	offset = get_offset(address);

	current_line = &(my_cache->lines[line_number]);
	hit = 0;
	for (i = 0; i < my_cache -> num_blocks_set;i++) {
		current_block = &(current_line->blocks[i]);
		if (current_block->valid && current_block->tag == tag) {
			hit = 1;
			hit_block = current_block;
			hit_block->time_stamp = my_cache ->timer;
		}

	}
	if (rw == READ){
		stats->reads++;
	} else if (rw == WRITE) {
		stats->writes++;
	} 

	if (hit && rw == WRITE){
		hit_block -> dirty = 1;
	} else if (!hit) {
		handle_miss(current_line, tag, rw, stats);//get a victim from current line and replace it with the memory from the address.
	}
}
Ejemplo n.º 3
0
/* read argument string of a single assignment */
char* get_arg( FILE *file, char *name, int type )
{
    char token[MAX_TOKEN_LENGTH];
    char *arg = 0;

    /* search entry_name */
    if ( !find_token( file, name, type, WARNING ) ) return 0;

    /* token was found so read it */
    read_token( file, token );
    /* next token must be an equation */
    read_token( file, token );
    if ( token[0] != '=' ) {
        fprintf( stderr,
                 "get_arg: line %i: '=' expected after token '%s' but found '%s' instead\n", get_line_number( file ), name, token );
        return 0;
    }
    /* get argument */
    read_token( file, token );
    if ( token[0] == 0 )
        fprintf( stderr, "get_arg: line %i: warning: argument for '%s' is empty\n", get_line_number( file ), name );
    arg = strdup( token );
#ifdef FILE_DEBUG
    printf( "get_arg: %s = %s\n", name, arg );
#endif
    return arg;
}
Ejemplo n.º 4
0
 int get_line_number(boost::exception_ptr const& e)
 {
     try {
         boost::rethrow_exception(e);
     }
     catch (boost::exception const& be) {
         return get_line_number(be);
     }
 }
Ejemplo n.º 5
0
//插入命令,n为用户输入的行号,从1开始
//extra:输入命令时接着的信息,代表待插入的文本
void com_ins(char *text[], int n, char *extra)
{
	if (n < 0 || n > get_line_number(text) + 1)
	{
		printf(1, "invalid line number\n");
		return;
	}
	char input[MAX_LINE_LENGTH] = {};
	if (*extra == '\0')
	{
		printf(1, "please input content:\n");
		gets(input, MAX_LINE_LENGTH);
		input[strlen(input)-1] = '\0';
	}
	else
		strcpy(input, extra);
	int i = MAX_LINE_NUMBER - 1;
	for (; i > n; i--)
	{
		if (text[i-1] == NULL)
			continue;
		else if (text[i] == NULL && text[i-1] != NULL)
		{
			text[i] = malloc(MAX_LINE_LENGTH);
			memset(text[i], 0, MAX_LINE_LENGTH);
			strcpy(text[i], text[i-1]);
		}
		else if (text[i] != NULL && text[i-1] != NULL)
		{
			memset(text[i], 0, MAX_LINE_LENGTH);
			strcpy(text[i], text[i-1]);
		}
	}
	if (text[n] == NULL)
	{
		text[n] = malloc(MAX_LINE_LENGTH);
		if (text[n-1][0] == '\0')
		{
			memset(text[n], 0, MAX_LINE_LENGTH);
			strcpy(text[n-1], input);
			changed = 1;
			if (auto_show == 1)
				show_text(text);
			return;
		}
	}
	memset(text[n], 0, MAX_LINE_LENGTH);
	strcpy(text[n], input);
	changed = 1;
	if (auto_show == 1)
		show_text(text);
}
Ejemplo n.º 6
0
//修改命令,n为用户输入的行号,从1开始
//extra:输入命令时接着的信息,代表待修改成的文本
void com_mod(char *text[], int n, char *extra)
{
	if (n <= 0 || n > get_line_number(text) + 1)
	{
		printf(1, "invalid line number\n");
		return;
	}
	char input[MAX_LINE_LENGTH] = {};
	if (*extra == '\0')
	{
		printf(1, "please input content:\n");
		gets(input, MAX_LINE_LENGTH);
		input[strlen(input)-1] = '\0';
	}
	else
		strcpy(input, extra);
	memset(text[n-1], 0, MAX_LINE_LENGTH);
	strcpy(text[n-1], input);
	changed = 1;
	if (auto_show == 1)
		show_text(text);
}
Ejemplo n.º 7
0
//删除命令,n为用户输入的行号,从1开始
void com_del(char *text[], int n)
{
	if (n <= 0 || n > get_line_number(text) + 1)
	{
		printf(1, "invalid line number\n");
		return;
	}
	memset(text[n-1], 0, MAX_LINE_LENGTH);
	int i = n - 1;
	for (; text[i+1] != NULL; i++)
	{
		strcpy(text[i], text[i+1]);
		memset(text[i+1], 0, MAX_LINE_LENGTH);
	}
	if (i != 0)
	{
		free(text[i]);
		text[i] = 0;
	}
	changed = 1;
	if (auto_show == 1)
		show_text(text);
}
Ejemplo n.º 8
0
element * parse_AND_pragmas(char * orig_buffer, items * input, int begin, int end, int * _index)
{
  item Item;
  element * Pragmas, * p;
  int index, old_index;

  Pragmas = NULL;

  Pragmas = create_pragmas(-1, -1, -1, -1, -1, AND, 10);

  /*
  if (begin < 0)
    begin = 0;
  if (end < 0)
    end = input->number_of_items - 1;
  */

  index = begin;

  if (DEBUG_PRAGMAS)
    printf("Entering 'parse_AND_pragmas' with [%i, %i]\n", begin, end);

  if (begin > end)
    {
      if (DEBUG_PRAGMAS)
	printf("Exiting 'parse_AND_pragmas'\n");
      *_index = -1;
      return Pragmas;
    }

  old_index = index;
  while (index <= end)
    {
      old_index = index;
      Item = input->data[index];

      switch (Item.type)
	{
	case PRAGMA_IF: 
	  if (DEBUG_PRAGMAS)
	    printf("#if detected in 'parse_AND_pragmas' at %i\n", 
		   get_line_number(orig_buffer, Item.begin));

	  old_index = index;
	  p = parse_OR_pragmas(orig_buffer, input, old_index, end, &index);
	  p->pid = old_index;
	  add_pragma(Pragmas, p);

	  index++;

	  if (DEBUG_PRAGMAS)
	    printf("#if clause starting at %i was added successfully, next pragma number is %i\n", 
		   get_line_number(orig_buffer, Item.begin), 
		   index);
	  break;

	case PRAGMA_ELSE:
	case PRAGMA_ENDIF:
	  printf("#else or #endif appear without #if at %i\n", 
		 get_line_number(orig_buffer, Item.begin));
  	  exit(-1);
	  break;

	case PRAGMA_OTHER:
	case STRING:
	case LITERAL:
	case COMMENT:
	case OTHER:
	case ESCSEQ:
	  printf("Internal error in pragmas handling: more pragma types are present than should be\n");
	  exit(-1);
	}
    }

  if (DEBUG_PRAGMAS)
    printf("Exiting 'parse_AND_pragmas'\n");

  *_index = index;
  return Pragmas;
}
Ejemplo n.º 9
0
element * parse_OR_pragmas(char * orig_buffer, items * input, int begin, int end, int * _index)
{
  item oldItem, Item;
  element * Pragmas, * p;
  int oldindex, index, x;
  int done;

  if (DEBUG_PRAGMAS)
    printf("Entering 'parse_OR_pragmas' with [%i, %i]\n", begin, end);

  Pragmas = NULL;

  Pragmas = create_pragmas(-1, -1, -1, -1, -1, OR, 10);

  /*
  if (begin < 0)
    begin = 0;
  if (end < 0)
    end = input->number_of_items - 1;
  */

  index = begin;
  assert(begin >= 0);
  assert(begin <= end);

  done = 0;
  while (1)
    {
      oldindex = index;
      if (done)
	index = find_next_pragma(orig_buffer, input, index + 1, end);

      oldItem = input->data[oldindex];

      if (index == -1)
	{
	  printf("Cannot find matching #else or #endif for #if pragma at %i\n", 
		 get_line_number(orig_buffer, oldItem.begin));
	  exit(-1);
	}

      Item = input->data[index];

      if (DEBUG_PRAGMAS)
	printf("Parsing pragmas in 'parse_OR_pragmas' at %i\n", get_line_number(orig_buffer, Item.begin));

      if (! done)
	{
	  if (oldItem.type != PRAGMA_IF)
	    {
	      printf("%s%s%s", "Internal error in parsing pragmas: ", 
		     "call to 'parse_OR_pragmas' ", 
		     "was made without #if present\n");
	      exit(-1);
	    }
	  /*
	  p = parse_AND_pragmas(orig_buffer, input, oldindex + 1, index - 1, &x);
	  p->pid = index;
	  add_pragma(Pragmas, p);
	  */
	  done = 1;
	}
      else
	{
	  switch(Item.type)
	    {
	    case PRAGMA_IF:
	      printf("%s%s%s%i\n", 
		     "Internal error in parsing pragmas: ", 
		     "program used #if from the lower level ", 
		     "to be as in the upper level at ", 
		     get_line_number(orig_buffer, Item.begin));
	      exit(-1);

	    case PRAGMA_ELSE:
	      p = parse_AND_pragmas(orig_buffer, input, oldindex + 1, index - 1, &x);
	      p->pid = oldindex;
	      add_pragma(Pragmas, p);
	      break;

	    case PRAGMA_ENDIF:
	      if (DEBUG_PRAGMAS)
		printf("Exiting 'parse_OR_pragmas'\n");
	      p = parse_AND_pragmas(orig_buffer, input, oldindex + 1, index - 1, &x);
	      p->pid = oldindex;
	      add_pragma(Pragmas, p);
	      /*
	      p = create_pragmas(index, -1, -1, -1, -1, AND, 10);
	      add_pragma(Pragmas, p);
	      */
	      *_index = index;
	      return Pragmas;

	    case PRAGMA_OTHER:
	    case STRING:
	    case LITERAL:
	    case COMMENT:
	    case OTHER:
	    case ESCSEQ:
	      printf("Internal error in pragmas handling\n");
	      exit(-1);
	    }
	}
    }

  /* should never be reached */
  printf("Reached unreachable code\n");
  exit(-1);
}
Ejemplo n.º 10
0
bool CL_XMLTokenizer_Generic::next_exclamation_mark_node(CL_XMLToken *out_token)
{
	CL_String::char_type *data_ptr = data.data();
	if (pos+2 >= size)
		CL_XMLTokenizer_Generic::throw_exception("Premature end of XML data!");
	
	if (data.compare(pos, 2, "--") == 0) // comment block
	{
		CL_String::size_type start_pos = pos+2;
		CL_String::size_type end_pos = data.find("-->", start_pos);
		if (end_pos == data.npos)
			CL_XMLTokenizer_Generic::throw_exception("Premature end of XML data!");
		pos = end_pos+3;

		CL_StringRef text, text_orig(data_ptr + start_pos, end_pos-start_pos, false);
		unescape(text, text_orig);
		if (eat_whitespace)
			text = trim_whitespace(text);

		out_token->type = CL_XMLToken::COMMENT_TOKEN;
		out_token->variant = CL_XMLToken::SINGLE;
		out_token->value = text;
		return true;
	}

	if (pos+7 >= size)
		CL_XMLTokenizer_Generic::throw_exception("Premature end of XML data!");
	
	if (data.compare(pos, 7, "DOCTYPE") == 0)
	{
		// Strip whitespace:
		pos = data.find_first_not_of(" \r\n\t", pos+7);
		if (pos == data.npos)
			CL_XMLTokenizer_Generic::throw_exception("Premature end of XML data!");

		// Find doctype name:				
		CL_String::size_type name_start = pos;
		CL_String::size_type name_end = data.find_first_of(" \r\n\t?/>", name_start);
		if (name_end == data.npos)
			CL_XMLTokenizer_Generic::throw_exception("Premature end of XML data!");
		pos = name_end;
		
		// Strip whitespace:
		pos = data.find_first_not_of(" \r\n\t", pos);
		if (pos == data.npos)
			CL_XMLTokenizer_Generic::throw_exception("Premature end of XML data!");

		CL_String::size_type public_start = data.npos;
		CL_String::size_type public_end = data.npos;
		CL_String::size_type system_start = data.npos;
		CL_String::size_type system_end = data.npos;
		CL_String::size_type subset_start = data.npos;
		CL_String::size_type subset_end = data.npos;

		// Look for possible external id:
		if (data_ptr[pos] != '[' && data_ptr[pos] != '>')
		{
			if (pos+6 >= size)
				CL_XMLTokenizer_Generic::throw_exception("Premature end of XML data!");

			if (data.compare(pos, 6, "SYSTEM") == 0)
			{
				pos+=6;
				if (pos == size)
					CL_XMLTokenizer_Generic::throw_exception("Premature end of XML data!");

				// Strip whitespace:
				pos = data.find_first_not_of(" \r\n\t", pos);
				if (pos == data.npos)
					CL_XMLTokenizer_Generic::throw_exception("Premature end of XML data!");

				// Read system literal:
				CL_String::char_type literal_char = data_ptr[pos];
				if (literal_char != '\'' && literal_char != '"')
					CL_XMLTokenizer_Generic::throw_exception("Premature end of XML data!");

				system_start = pos+1;
				system_end = data.find(literal_char, system_start);
				if (system_end == data.npos)
					CL_XMLTokenizer_Generic::throw_exception("Premature end of XML data!");
				pos = system_end + 1;
				if (pos >= size)
					CL_XMLTokenizer_Generic::throw_exception("Premature end of XML data!");
			}
			else if (data.compare(pos, 6, "PUBLIC") == 0)
			{
				pos+=6;
				if (pos == size)
					CL_XMLTokenizer_Generic::throw_exception("Premature end of XML data!");

				// Strip whitespace:
				pos = data.find_first_not_of(" \r\n\t", pos);
				if (pos == data.npos)
					CL_XMLTokenizer_Generic::throw_exception("Premature end of XML data!");

				// Read public literal:
				CL_String::char_type literal_char = data_ptr[pos];
				if (literal_char != '\'' && literal_char != '"')
					CL_XMLTokenizer_Generic::throw_exception("Premature end of XML data!");

				public_start = pos+1;
				public_end = data.find(literal_char, public_start);
				if (public_end == data.npos)
					CL_XMLTokenizer_Generic::throw_exception("Premature end of XML data!");
				pos = public_end + 1;
				if (pos >= size)
					CL_XMLTokenizer_Generic::throw_exception("Premature end of XML data!");

				// Strip whitespace:
				pos = data.find_first_not_of(" \r\n\t", pos);
				if (pos == data.npos)
					CL_XMLTokenizer_Generic::throw_exception("Premature end of XML data!");

				// Read system literal:
				literal_char = data_ptr[pos];
				if (literal_char != '\'' && literal_char != '"')
					CL_XMLTokenizer_Generic::throw_exception("Premature end of XML data!");

				system_start = pos+1;
				system_end = data.find(literal_char, system_start);
				if (system_end == data.npos)
					CL_XMLTokenizer_Generic::throw_exception("Premature end of XML data!");
				pos = system_end + 1;
				if (pos >= size)
					CL_XMLTokenizer_Generic::throw_exception("Premature end of XML data!");
			}
			else
				CL_XMLTokenizer_Generic::throw_exception(cl_format("Error in XML stream, line %1 (unknown external identifier type in DOCTYPE)", get_line_number()));
		
			// Strip whitespace:
			pos = data.find_first_not_of(" \r\n\t", pos);
			if (pos == data.npos)
				CL_XMLTokenizer_Generic::throw_exception("Premature end of XML data!");
		}
		
		// Look for possible internal subset:
		if (data_ptr[pos] == '[')
		{
			subset_start = pos + 1;
		
			// Search for the end of the internal subset:
			// (to avoid parsing it, we search backwards)
			CL_String::size_type end_pos = data.find('>', pos+1);
			if (end_pos == data.npos)
				CL_XMLTokenizer_Generic::throw_exception("Premature end of XML data!");
			
			subset_end = data.rfind(']', end_pos);
			if (subset_end == data.npos)
				CL_XMLTokenizer_Generic::throw_exception(cl_format("Error in XML stream, line %1 (expected end of internal subset in DOCTYPE)", get_line_number()));
				
			pos = end_pos;
		}
		
		// Expect DOCTYPE tag to end now:
		if (data_ptr[pos] != '>')
			CL_XMLTokenizer_Generic::throw_exception(cl_format("Error in XML stream, line %1 (expected end of DOCTYPE)", get_line_number()));
		pos++;

		out_token->type = CL_XMLToken::DOCUMENT_TYPE_TOKEN;
		return true;
	}
	else if (data.compare(pos, 7, "[CDATA[") == 0)
	{
		CL_String::size_type start_pos = pos+7;
		CL_String::size_type end_pos = data.find("]]>", start_pos);
		if (end_pos == data.npos)
			CL_XMLTokenizer_Generic::throw_exception("Premature end of XML data!");
		pos = end_pos+3;

		CL_StringRef value = string_allocator.alloc(
			data_ptr + start_pos, end_pos-start_pos);

		out_token->type = CL_XMLToken::CDATA_SECTION_TOKEN;
		out_token->variant = CL_XMLToken::SINGLE;
		out_token->value = value;
		return true;
	}
	else
	{
		CL_XMLTokenizer_Generic::throw_exception(cl_format("Error in XML stream at position %1", static_cast<int>(pos)));
		return false;
	}
}
Ejemplo n.º 11
0
bool CL_XMLTokenizer_Generic::next_tag_node(CL_XMLToken *out_token)
{
	CL_String::char_type *data_ptr = data.data();
	if (pos == size || data_ptr[pos] != '<')
		return false;

	pos++;
	if (pos == size)
		CL_XMLTokenizer_Generic::throw_exception("Premature end of XML data!");

	// Try to early predict what sort of node it might be:
	bool closing = (data_ptr[pos] == '/');
	bool questionMark = (data_ptr[pos] == '?');
	bool exclamationMark = (data_ptr[pos] == '!');

	if (closing || questionMark || exclamationMark)
	{
		pos++;
		if (pos == size)
			CL_XMLTokenizer_Generic::throw_exception("Premature end of XML data!");
	}

	if (exclamationMark) // check for cdata section, comments or doctype
	{
		if (next_exclamation_mark_node(out_token))
			return true;
	}

	// Extract the tag name:
	CL_String::size_type start_pos = pos;
	CL_String::size_type end_pos = data.find_first_of(" \r\n\t?/>", start_pos);
	if (end_pos == data.npos)
		CL_XMLTokenizer_Generic::throw_exception("Premature end of XML data!");
	pos = end_pos;

	out_token->type = questionMark ? CL_XMLToken::PROCESSING_INSTRUCTION_TOKEN : CL_XMLToken::ELEMENT_TOKEN;
	out_token->variant = closing ? CL_XMLToken::END : CL_XMLToken::BEGIN;
	out_token->name = string_allocator.alloc(data_ptr + start_pos, end_pos - start_pos);

	if (out_token->type == CL_XMLToken::PROCESSING_INSTRUCTION_TOKEN)
	{
		// Strip whitespace:
		pos = data.find_first_not_of(" \r\n\t", pos);
		if (pos == data.npos)
			CL_XMLTokenizer_Generic::throw_exception("Premature end of XML data!");

		end_pos = data.find_first_of("?", pos);
		if (end_pos == data.npos)
			CL_XMLTokenizer_Generic::throw_exception("Premature end of XML data!");
		out_token->value = string_allocator.alloc(data_ptr + pos, end_pos - pos);
		pos = end_pos;
	}
	else // out_token->type == CL_XMLToken::ELEMENT_TOKEN
	{
		// Check for possible attributes:
		while (true)
		{
			// Strip whitespace:
			pos = data.find_first_not_of(" \r\n\t", pos);
			if (pos == data.npos)
				CL_XMLTokenizer_Generic::throw_exception("Premature end of XML data!");

			// End of tag, stop searching for more attributes:
			if (data_ptr[pos] == '/' || data_ptr[pos] == '?' || data_ptr[pos] == '>')
				break;

			// Extract attribute name:
			CL_String::size_type start_pos = pos;
			CL_String::size_type end_pos = data.find_first_of(" \r\n\t=", start_pos);
			if (end_pos == data.npos)
				CL_XMLTokenizer_Generic::throw_exception("Premature end of XML data!");
			pos = end_pos;

			CL_StringRef attributeName = string_allocator.alloc(data_ptr + start_pos, end_pos-start_pos);

			// Find seperator:
			pos = data.find_first_not_of(" \r\n\t", pos);
			if (pos == data.npos || pos == size-1)
				CL_XMLTokenizer_Generic::throw_exception("Premature end of XML data!");
			if (data_ptr[pos++] != '=')
				CL_XMLTokenizer_Generic::throw_exception(cl_format("XML error(s), parser confused at line %1 (tag=%2, attributeName=%3)", get_line_number(), out_token->name, attributeName));

			// Strip whitespace:
			pos = data.find_first_not_of(" \r\n\t", pos);
			if (pos == data.npos)
				CL_XMLTokenizer_Generic::throw_exception("Premature end of XML data!");

			// Extract attribute value:
			CL_String::char_type const * first_of = " \r\n\t";
			if (data_ptr[pos] == '"')
			{
				first_of = "\"";
				pos++;
				if (pos == size)
					CL_XMLTokenizer_Generic::throw_exception("Premature end of XML data!");
			}
			else
				if (data_ptr[pos] == '\'')
				{
					first_of = "'";
					pos++;
					if (pos == size)
						CL_XMLTokenizer_Generic::throw_exception("Premature end of XML data!");
				}

				start_pos = pos;
				end_pos = data.find_first_of(first_of, start_pos);
				if (end_pos == data.npos)
					CL_XMLTokenizer_Generic::throw_exception("Premature end of XML data!");

				CL_StringRef attributeValue, attributeValueOrig(data_ptr + start_pos, end_pos-start_pos, false);
				unescape(attributeValue, attributeValueOrig);

				pos = end_pos + 1;
				if (pos == size)
					CL_XMLTokenizer_Generic::throw_exception("Premature end of XML data!");

				// Finally apply attribute to token:
				out_token->attributes.push_back(CL_XMLToken::Attribute(attributeName, attributeValue));
		}
	}

	// Check if its singular:
	if (data_ptr[pos] == '/' || data_ptr[pos] == '?')
	{
		out_token->variant = CL_XMLToken::SINGLE;
		pos++;
		if (pos == size)
			CL_XMLTokenizer_Generic::throw_exception("Premature end of XML data!");
	}

	// Data stream should be ending now.
	if (data_ptr[pos] != '>')
		CL_XMLTokenizer_Generic::throw_exception(cl_format("Error in XML stream, line %1 (expected end of tag)", get_line_number()));
	pos++;

	return true;
}
Ejemplo n.º 12
0
int main(int argc, char *argv[])
{
	setProgramStatus(EDITOR);
	if (argc == 1)
	{
		printf(1, "please input the command as [editor file_name]\n");
		setProgramStatus(SHELL);
		exit();
	}
	//存放文件内容
	char *text[MAX_LINE_NUMBER] = {};
	text[0] = malloc(MAX_LINE_LENGTH);
	memset(text[0], 0, MAX_LINE_LENGTH);
	//存储当前最大的行号,从0开始。即若line_number == x,则从text[0]到text[x]可用
	int line_number = 0;
	//尝试打开文件
	int fd = open(argv[1], O_RDONLY);
	//如果文件存在,则打开并读取里面的内容
	if (fd != -1)
	{
		char buf[BUF_SIZE] = {};
		int len = 0;
		while ((len = read(fd, buf, BUF_SIZE)) > 0)
		{
			int i = 0;
			int next = 0;
			int is_full = 0;
			while (i < len)
			{
				//拷贝"\n"之前的内容
				for (i = next; i < len && buf[i] != '\n'; i++)
					;
				strcat_n(text[line_number], buf+next, i-next);
				//必要时新建一行
				if (i < len && buf[i] == '\n')
				{
					if (line_number >= MAX_LINE_NUMBER - 1)
						is_full = 1;
					else
					{
						line_number++;
						text[line_number] = malloc(MAX_LINE_LENGTH);
						memset(text[line_number], 0, MAX_LINE_LENGTH);
					}
				}
				if (is_full == 1 || i >= len - 1)
					break;
				else
					next = i + 1;
			}
			if (is_full == 1)
				break;
		}
		close(fd);
	}
	
	//输出文件内容
	show_text(text);
	//输出帮助
	com_help(text);
	
	//处理命令
	char input[MAX_LINE_LENGTH] = {};
	while (1)
	{
		printf(1, "\nplease input command:\n");
		memset(input, 0, MAX_LINE_LENGTH);
		gets(input, MAX_LINE_LENGTH);
		int len = strlen(input);
		input[len-1] = '\0';
		len --;
		//寻找命令中第一个空格
		int pos = MAX_LINE_LENGTH - 1;
		int j = 0;
		for (; j < 8; j++)
		{
			if (input[j] == ' ')
			{
				pos = j + 1;
				break;
			}
		}
		//ins
		if (input[0] == 'i' && input[1] == 'n' && input[2] == 's')
		{
			if (input[3] == '-')
				com_ins(text, atoi(&input[4]), &input[pos]);
			else
				com_ins(text, line_number+1, &input[pos]);
			//插入操作需要更新行号
			line_number = get_line_number(text);
		}
		//mod
		else if (input[0] == 'm' && input[1] == 'o' && input[2] == 'd')
		{
			if (input[3] == '-')
				com_mod(text, atoi(&input[4]), &input[pos]);
			else
				com_mod(text, line_number + 1, &input[pos]);
		}
		//del
		else if (input[0] == 'd' && input[1] == 'e' && input[2] == 'l')
		{
			if (input[3] == '-')
				com_del(text, atoi(&input[4]));
			else
				com_del(text, line_number + 1);
			//删除操作需要更新行号
			line_number = get_line_number(text);
		}
		else if (strcmp(input, "show") == 0)
		{
			auto_show = 1;
			printf(1, "enable show current contents after text changed.\n");
		}
		else if (strcmp(input, "hide") == 0)
		{
			auto_show = 0;
			printf(1, "disable show current contents after text changed.\n");
		}
		else if (strcmp(input, "help") == 0)
			com_help(text);
		else if (strcmp(input, "save") == 0 || strcmp(input, "CTRL+S\n") == 0)
			com_save(text, argv[1]);
		else if (strcmp(input, "exit") == 0)
			com_exit(text, argv[1]);
		else
		{
			printf(1, "invalid command.\n");
			com_help(text);
		}
	}
	setProgramStatus(SHELL);
	exit();
}
Ejemplo n.º 13
0
int main(void) {
	char bootlist[MAX_DEVICES][MAX_LENGTH];
	int i;
	char key;
	u8 max_lines = 0;
	u8 bootlist_def_ln = 0;
	u8 bootlist_map_ln = 0;
	char *ipxe_str;
	char *scon_str;

#ifdef CONFIG_USB /* this needs to be done in order to use the USB keyboard */
	usb_initialize();
	noecho(); /* don't echo keystrokes */
#endif

	printf("\n*********************************************************************");
	printf("\n*** Sortbootorder payload    ver 1.1   Sage Electronic Engineering  *");
	printf("\n*********************************************************************\n");

	// Find out where the bootorder file is in rom
	char *tmp = cbfs_get_file_content( CBFS_DEFAULT_MEDIA, BOOTORDER_FILE, CBFS_TYPE_RAW, NULL );
	flash_address = (int)tmp;
	if ((u32)tmp & 0xfff)
		printf("Warning: The bootorder file is not 4k aligned!\n");

	// Get required files from CBFS
	fetch_file_from_cbfs( BOOTORDER_FILE, bootlist, &max_lines );
	fetch_file_from_cbfs( BOOTORDER_DEF, bootlist_def, &bootlist_def_ln );
	fetch_file_from_cbfs( BOOTORDER_MAP, bootlist_map, &bootlist_map_ln );

	// Init ipxe and serial status
	ipxe_str = cbfs_find_string("pxen", BOOTORDER_FILE);
	ipxe_str += strlen("pxen");
	ipxe_toggle = ipxe_str ? strtoul(ipxe_str, NULL, 10) : 1;

	scon_str = cbfs_find_string("scon", BOOTORDER_FILE);
	scon_str += strlen("scon");
	serial_toggle = scon_str ? strtoul(scon_str, NULL, 10) : 1;

	show_boot_device_list( bootlist, max_lines, bootlist_def_ln );
	int_ids( bootlist, max_lines, bootlist_def_ln );

	// Start main loop for user input
	while (1) {
		printf("\n> ");
		key = getchar();
		printf("%c\n\n\n", key);
		switch(key) {
			case 'R':
				for (i = 0; i < max_lines && i < bootlist_def_ln; i++ )
					copy_list_line(&(bootlist_def[i][0]), &(bootlist[i][0]));
				int_ids( bootlist, max_lines, bootlist_def_ln );
				break;
			case 'T':
				serial_toggle ^= 0x1;
				break;
			case 'N':
				ipxe_toggle ^= 0x1;
				break;
			case 'U':
				usb_toggle ^= 0x1;
				break;
			case 'E':
				update_tag_value(bootlist, max_lines, "scon", serial_toggle + '0');
				update_tag_value(bootlist, max_lines, "pxen", ipxe_toggle + '0');
				save_flash( bootlist, max_lines );
				// fall through to exit ...
			case 'X':
				printf("\nExiting ...");
				outb(0x06, 0x0cf9); /* reset */
				break;
			default:
				if (key >= 'a' && key <= 'm' ) {
					move_boot_list( bootlist, get_line_number(max_lines,key), max_lines );
				}
				break;
		}
		show_boot_device_list( bootlist, max_lines, bootlist_def_ln );
	}
	return 0;  /* should never get here! */
}
Ejemplo n.º 14
0
 int get_line_number(hpx::exception const& e)
 {
     return get_line_number(dynamic_cast<boost::exception const&>(e));
 }