// Parse a loop body (could also be used for macro body)
static void parse_ram_block(int line_number, char* body) {
Input_now->line_number = line_number;// set line number to loop start
Input_now->src.ram_ptr = body;// set RAM read pointer to loop
// Parse loop body
Parse_until_eob_or_eof();
if(GotByte != CHAR_EOB)
Bug_found("IllegalBlockTerminator", GotByte);
}
// Parse or skip a block. Returns whether block's '}' terminator was missing.
// Afterwards: GotByte = '}'
static bool skip_or_parse_block(bool parse) {
if(!parse) {
Input_skip_or_store_block(FALSE);
return(FALSE);
}
// if block was correctly terminated, return FALSE
Parse_until_eob_or_eof();
// if block isn't correctly terminated, complain and exit
if(GotByte != CHAR_EOB)
Throw_serious_error(exception_no_right_brace);
return(FALSE);
}
// Parse a whole source code file
void Parse_and_close_file(FILE* fd, const char* filename) {
// be verbose
if(Process_verbosity > 2)
printf("Parsing source file '%s'\n", filename);
// set up new input
Input_new_file(filename, fd);
// Parse block and check end reason
Parse_until_eob_or_eof();
if(GotByte != CHAR_EOF)
Throw_error("Found '}' instead of end-of-file.");
// close sublevel src
fclose(Input_now->src.fd);
}
// Parse macro call ("+MACROTITLE"). Has to be re-entrant.
void Macro_parse_call(void) // Now GotByte = dot or first char of macro name
{
char local_gotbyte;
struct symbol *symbol;
struct section new_section,
*outer_section;
struct input new_input,
*outer_input;
struct macro *actual_macro;
struct rwnode *macro_node,
*symbol_node;
zone_t macro_zone,
symbol_zone;
int arg_count = 0;
// Enter deeper nesting level
// Quit program if recursion too deep.
if (--macro_recursions_left < 0)
Throw_serious_error("Too deeply nested. Recursive macro calls?");
macro_zone = get_zone_and_title();
// now GotByte = first non-space after title
// internal_name = MacroTitle ARG_SEPARATOR (grows to signature)
// Accept n>=0 comma-separated arguments before CHAR_EOS.
// Valid argument formats are:
// EXPRESSION (everything that does NOT start with '~'
// ~.LOCAL_LABEL_BY_REFERENCE
// ~GLOBAL_LABEL_BY_REFERENCE
// now GotByte = non-space
if (GotByte != CHAR_EOS) { // any at all?
do {
// if arg table cannot take another element, enlarge
if (argtable_size <= arg_count)
enlarge_arg_table();
// Decide whether call-by-reference or call-by-value
// In both cases, GlobalDynaBuf may be used.
if (GotByte == REFERENCE_CHAR) {
// read call-by-reference arg
DynaBuf_append(internal_name, ARGTYPE_NUM_REF);
GetByte(); // skip '~' character
Input_read_zone_and_keyword(&symbol_zone);
// GotByte = illegal char
arg_table[arg_count].symbol = symbol_find(symbol_zone, 0);
} else {
// read call-by-value arg
DynaBuf_append(internal_name, ARGTYPE_NUM_VAL);
ALU_any_result(&(arg_table[arg_count].result));
}
++arg_count;
} while (Input_accept_comma());
}
// now arg_table contains the arguments
// now GlobalDynaBuf = unused
// check for "unknown macro"
// Search for macro. Do not create if not found.
search_for_macro(¯o_node, macro_zone, FALSE);
if (macro_node == NULL) {
Throw_error("Macro not defined (or wrong signature).");
Input_skip_remainder();
} else {
// make macro_node point to the macro struct
actual_macro = macro_node->body;
local_gotbyte = GotByte; // CAUTION - ugly kluge
// set up new input
new_input.original_filename = actual_macro->def_filename;
new_input.line_number = actual_macro->def_line_number;
new_input.source_is_ram = TRUE;
new_input.state = INPUTSTATE_NORMAL; // FIXME - fix others!
new_input.src.ram_ptr = actual_macro->parameter_list;
// remember old input
outer_input = Input_now;
// activate new input
Input_now = &new_input;
// remember old section
outer_section = Section_now;
// start new section (with new zone)
// FALSE = title mustn't be freed
Section_new_zone(&new_section, "Macro", actual_macro->original_name, FALSE);
GetByte(); // fetch first byte of parameter list
// assign arguments
if (GotByte != CHAR_EOS) { // any at all?
arg_count = 0;
do {
// Decide whether call-by-reference
// or call-by-value
// In both cases, GlobalDynaBuf may be used.
if (GotByte == REFERENCE_CHAR) {
// assign call-by-reference arg
GetByte(); // skip '~' character
Input_read_zone_and_keyword(&symbol_zone);
if ((Tree_hard_scan(&symbol_node, symbols_forest, symbol_zone, TRUE) == FALSE)
&& (pass_count == 0))
Throw_error("Macro parameter twice.");
symbol_node->body = arg_table[arg_count].symbol;
} else {
// assign call-by-value arg
Input_read_zone_and_keyword(&symbol_zone);
symbol = symbol_find(symbol_zone, 0);
// FIXME - add a possibility to symbol_find to make it possible to find out
// whether symbol was just created. Then check for the same error message here
// as above ("Macro parameter twice.").
symbol->result = arg_table[arg_count].result;
}
++arg_count;
} while (Input_accept_comma());
}
// and now, finally, parse the actual macro body
Input_now->state = INPUTSTATE_NORMAL; // FIXME - fix others!
// maybe call parse_ram_block(actual_macro->def_line_number, actual_macro->body)
Input_now->src.ram_ptr = actual_macro->body;
Parse_until_eob_or_eof();
if (GotByte != CHAR_EOB)
Bug_found("IllegalBlockTerminator", GotByte);
// end section (free title memory, if needed)
Section_finalize(&new_section);
// restore previous section
Section_now = outer_section;
// restore previous input:
Input_now = outer_input;
// restore old Gotbyte context
GotByte = local_gotbyte; // CAUTION - ugly kluge
Input_ensure_EOS();
}
++macro_recursions_left; // leave this nesting level
}
