/* ------------------------------------------------------------------------- */
/* "directs" : Directives (# commands) */
/* */
-/* Part of Inform 6.35 */
-/* copyright (c) Graham Nelson 1993 - 2021 */
+/* Part of Inform 6.40 */
+/* copyright (c) Graham Nelson 1993 - 2022 */
/* */
/* Inform is free software: you can redistribute it and/or modify */
/* it under the terms of the GNU General Public License as published by */
static int constant_made_yet; /* Have any constants been defined yet? */
-static int ifdef_stack[32], ifdef_sp;
+#define MAX_IFDEF_STACK (32)
+static int ifdef_stack[MAX_IFDEF_STACK], ifdef_sp;
/* ------------------------------------------------------------------------- */
return FALSE;
if (!glulx_mode && no_abbreviations==96)
- { error("All 96 Z-machine abbreviations already declared");
+ { error_max_abbreviations(no_abbreviations);
+ panic_mode_error_recovery(); return FALSE;
+ }
+ if (!glulx_mode && no_abbreviations==MAX_ABBREVS)
+ { error_max_abbreviations(no_abbreviations);
+ /* This is no longer a memoryerror(); MAX_ABBREVS is an authoring decision for Z-code games. */
panic_mode_error_recovery(); return FALSE;
}
- if (no_abbreviations==MAX_ABBREVS)
- memoryerror("MAX_ABBREVS", MAX_ABBREVS);
if (abbrevs_lookup_table_made)
{ error("All abbreviations must be declared together");
panic_mode_error_recovery(); return FALSE;
}
if (token_type != DQ_TT)
- return ebf_error_recover("abbreviation string", token_text);
- if (strlen(token_text)<2)
- { error_named("It's not worth abbreviating", token_text);
- continue;
+ { return ebf_error_recover("abbreviation string", token_text);
}
/* Abbreviation string with null must fit in a MAX_ABBREV_LENGTH
array. */
return ebf_error_recover("new constant name", token_text);
}
- if (!(sflags[i] & (UNKNOWN_SFLAG + REDEFINABLE_SFLAG)))
+ if (!(symbols[i].flags & (UNKNOWN_SFLAG + REDEFINABLE_SFLAG)))
{ discard_token_location(beginning_debug_location);
- return ebf_symbol_error_recover("new constant name", token_text, typename(stypes[i]), slines[i]);
+ return ebf_symbol_error_recover("new constant name", token_text, typename(symbols[i].type), symbols[i].line);
}
assign_symbol(i, 0, CONSTANT_T);
get_next_token();
if ((token_type == SEP_TT) && (token_value == COMMA_SEP))
- { if (debugfile_switch && !(sflags[i] & REDEFINABLE_SFLAG))
+ { if (debugfile_switch && !(symbols[i].flags & REDEFINABLE_SFLAG))
{ debug_file_printf("<constant>");
debug_file_printf("<identifier>%s</identifier>", constant_name);
write_debug_symbol_optional_backpatch(i);
}
if ((token_type == SEP_TT) && (token_value == SEMICOLON_SEP))
- { if (debugfile_switch && !(sflags[i] & REDEFINABLE_SFLAG))
+ { if (debugfile_switch && !(symbols[i].flags & REDEFINABLE_SFLAG))
{ debug_file_printf("<constant>");
debug_file_printf("<identifier>%s</identifier>", constant_name);
write_debug_symbol_optional_backpatch(i);
if (AO.marker != 0)
{ assign_marked_symbol(i, AO.marker, AO.value,
CONSTANT_T);
- sflags[i] |= CHANGE_SFLAG;
+ symbols[i].flags |= CHANGE_SFLAG;
if (i == grammar_version_symbol)
error(
"Grammar__Version must be given an explicit constant value");
}
}
- if (debugfile_switch && !(sflags[i] & REDEFINABLE_SFLAG))
+ if (debugfile_switch && !(symbols[i].flags & REDEFINABLE_SFLAG))
{ debug_file_printf("<constant>");
debug_file_printf("<identifier>%s</identifier>", constant_name);
write_debug_symbol_optional_backpatch(i);
return ebf_error_recover("name", token_text);
i = -1;
- if (sflags[token_value] & UNKNOWN_SFLAG)
+ if (symbols[token_value].flags & UNKNOWN_SFLAG)
{ i = token_value;
- sflags[i] |= DEFCON_SFLAG;
+ symbols[i].flags |= DEFCON_SFLAG;
}
get_next_token();
{ if (AO.marker != 0)
{ assign_marked_symbol(i, AO.marker, AO.value,
CONSTANT_T);
- sflags[i] |= CHANGE_SFLAG;
+ symbols[i].flags |= CHANGE_SFLAG;
}
else assign_symbol(i, AO.value, CONSTANT_T);
}
assembly_operand AO;
put_token_back();
AO = parse_expression(CONSTANT_CONTEXT);
- if (module_switch && (AO.marker != 0))
+ if (AO.marker != 0)
error("A definite value must be given as a Dictionary flag");
else
val1 = AO.value;
else {
assembly_operand AO;
put_token_back();
+ if (ZCODE_LESS_DICT_DATA && !glulx_mode)
+ warning("The third dictionary field will be ignored because ZCODE_LESS_DICT_DATA is set");
AO = parse_expression(CONSTANT_CONTEXT);
- if (module_switch && (AO.marker != 0))
+ if (AO.marker != 0)
error("A definite value must be given as a Dictionary flag");
else
val3 = AO.value;
if (token_type != SYMBOL_TT)
return ebf_error_recover("symbol name", token_text);
+ /* Special case: a symbol of the form "VN_nnnn" is considered
+ defined if the compiler version number is at least nnnn.
+ Compiler version numbers look like "1640" for Inform 6.40;
+ see RELEASE_NUMBER.
+ ("VN_nnnn" isn't a real symbol and can't be used in other
+ contexts.) */
if ((token_text[0] == 'V')
&& (token_text[1] == 'N')
&& (token_text[2] == '_')
&& (strlen(token_text)==7))
- { i = atoi(token_text+3);
- if (VNUMBER < i) flag = (flag)?FALSE:TRUE;
- goto HashIfCondition;
+ {
+ char *endstr;
+ i = strtol(token_text+3, &endstr, 10);
+ if (*endstr == '\0') {
+ /* All characters after the underscore were digits */
+ if (VNUMBER < i) flag = (flag)?FALSE:TRUE;
+ goto HashIfCondition;
+ }
}
- if (sflags[token_value] & UNKNOWN_SFLAG) flag = (flag)?FALSE:TRUE;
- else sflags[token_value] |= USED_SFLAG;
+ if (symbols[token_value].flags & UNKNOWN_SFLAG) flag = (flag)?FALSE:TRUE;
+ else symbols[token_value].flags |= USED_SFLAG;
goto HashIfCondition;
case IFNOT_CODE:
{ dont_enter_into_symbol_table = -2; n = 1;
directives.enabled = TRUE;
do
- { get_next_token();
+ {
+ release_token_texts();
+ get_next_token();
if (token_type == EOF_TT)
{ error("End of file reached in code 'If...'d out");
directives.enabled = FALSE;
return TRUE;
}
if (token_type == DIRECTIVE_TT)
- { switch(token_value)
+ {
+ switch(token_value)
{ case ENDIF_CODE:
n--; break;
case IFV3_CODE:
case IFTRUE_CODE:
{ assembly_operand AO;
AO = parse_expression(CONSTANT_CONTEXT);
- if (module_switch && (AO.marker != 0))
+ if (AO.marker != 0)
{ error("This condition can't be determined");
flag = 0;
}
case IFFALSE_CODE:
{ assembly_operand AO;
AO = parse_expression(CONSTANT_CONTEXT);
- if (module_switch && (AO.marker != 0))
+ if (AO.marker != 0)
{ error("This condition can't be determined");
flag = 1;
}
if (!((token_type == SEP_TT) && (token_value == SEMICOLON_SEP)))
return ebf_error_recover("semicolon after 'If...' condition", token_text);
+ if (ifdef_sp >= MAX_IFDEF_STACK) {
+ error("'If' directives nested too deeply");
+ panic_mode_error_recovery(); return FALSE;
+ }
+
if (flag)
{ ifdef_stack[ifdef_sp++] = TRUE; return FALSE; }
else
{ dont_enter_into_symbol_table = -2; n = 1;
directives.enabled = TRUE;
do
- { get_next_token();
+ {
+ release_token_texts();
+ get_next_token();
if (token_type == EOF_TT)
{ error("End of file reached in code 'If...'d out");
directives.enabled = FALSE;
get_next_token();
if (token_type != DQ_TT)
return ebf_error_recover("filename in double-quotes", token_text);
+ if (strlen(token_text) >= PATHLEN-1) {
+ error_numbered("'Link' filename is too long; max length is", PATHLEN-1);
+ break;
+ }
link_module(token_text); /* See "linker.c" */
break;
get_next_token(); i = token_value;
if (token_type != SYMBOL_TT)
return ebf_error_recover("new low string name", token_text);
- if (!(sflags[i] & UNKNOWN_SFLAG))
- return ebf_symbol_error_recover("new low string name", token_text, typename(stypes[i]), slines[i]);
+ if (!(symbols[i].flags & UNKNOWN_SFLAG))
+ return ebf_symbol_error_recover("new low string name", token_text, typename(symbols[i].type), symbols[i].line);
get_next_token();
if (token_type != DQ_TT)
return ebf_error_recover("literal string in double-quotes", token_text);
- assign_symbol(i, compile_string(token_text, TRUE, TRUE), CONSTANT_T);
+ assign_symbol(i, compile_string(token_text, STRCTX_LOWSTRING), CONSTANT_T);
break;
/* --------------------------------------------------------------------- */
break;
/* --------------------------------------------------------------------- */
- /* Property [long] [additive] name [alias oldname] */
+ /* Property [long] [additive] name */
+ /* Property [long] [additive] name alias oldname */
+ /* Property [long] [additive] name defaultvalue */
+ /* Property [long] individual name */
/* --------------------------------------------------------------------- */
case PROPERTY_CODE: make_property(); break; /* See "objects.c" */
case RELEASE_CODE:
{ assembly_operand AO;
AO = parse_expression(CONSTANT_CONTEXT);
- if (module_switch && (AO.marker != 0))
+ if (AO.marker != 0)
error("A definite value must be given as release number");
else
release_number = AO.value;
if (token_type != SYMBOL_TT)
return ebf_error_recover("name of routine to replace", token_text);
- if (!(sflags[token_value] & UNKNOWN_SFLAG))
+ if (!(symbols[token_value].flags & UNKNOWN_SFLAG))
return ebf_error_recover("name of routine not yet defined", token_text);
- sflags[token_value] |= REPLACE_SFLAG;
+ symbols[token_value].flags |= REPLACE_SFLAG;
/* If a second symbol is provided, it will refer to the
original (replaced) definition of the routine. */
{ return FALSE;
}
- if (token_type != SYMBOL_TT || !(sflags[token_value] & UNKNOWN_SFLAG))
+ if (token_type != SYMBOL_TT || !(symbols[token_value].flags & UNKNOWN_SFLAG))
return ebf_error_recover("semicolon ';' or new routine name", token_text);
/* Define the original-form symbol as a zero constant. Its
i = token_value; flag = FALSE;
- if (sflags[i] & UNKNOWN_SFLAG)
- { sflags[i] |= STUB_SFLAG;
+ if (symbols[i].flags & UNKNOWN_SFLAG)
+ { symbols[i].flags |= STUB_SFLAG;
flag = TRUE;
}
{
/* Give these parameter-receiving local variables names
for the benefit of the debugging information file,
- and for assembly tracing to look sensible. */
+ and for assembly tracing to look sensible.
+ (We don't set local_variable.keywords because we're not
+ going to be parsing any code.) */
- local_variable_texts[0] = "dummy1";
- local_variable_texts[1] = "dummy2";
- local_variable_texts[2] = "dummy3";
- local_variable_texts[3] = "dummy4";
+ strcpy(local_variable_names[0].text, "dummy1");
+ strcpy(local_variable_names[1].text, "dummy2");
+ strcpy(local_variable_names[2].text, "dummy3");
+ strcpy(local_variable_names[3].text, "dummy4");
assign_symbol(i,
- assemble_routine_header(k, FALSE, (char *) symbs[i], FALSE, i),
+ assemble_routine_header(k, FALSE, symbols[i].name, FALSE, i),
ROUTINE_T);
/* Ensure the return value of a stubbed routine is false,
/* Inhibit "local variable unused" warnings */
- for (i=1; i<=k; i++) variable_usage[i] = 1;
+ for (i=1; i<=k; i++) variables[i].usage = 1;
sequence_point_follows = FALSE;
assemble_routine_end(FALSE, get_token_locations());
}
declare_systemfile(); break; /* see "files.c" */
/* --------------------------------------------------------------------- */
- /* Trace dictionary */
- /* objects */
- /* symbols */
- /* verbs */
- /* [on/off] */
- /* assembly [on/off] */
- /* expressions [on/off] */
- /* lines [on/off] */
+ /* Trace dictionary [on/NUM] */
+ /* objects [on/NUM] */
+ /* symbols [on/NUM] */
+ /* verbs [on/NUM] */
+ /* [on/off/NUM] {same as "assembly"} */
+ /* assembly [on/off/NUM] */
+ /* expressions [on/off/NUM] */
+ /* lines [on/off/NUM] */
+ /* tokens [on/off/NUM] */
+ /* linker [on/off/NUM] */
+ /* */
+ /* The first four trace commands immediately display a compiler table. */
+ /* The rest set or clear an ongoing trace. */
/* --------------------------------------------------------------------- */
case TRACE_CODE:
get_next_token();
trace_keywords.enabled = FALSE;
directives.enabled = TRUE;
- if ((token_type == SEP_TT) && (token_value == SEMICOLON_SEP))
- { asm_trace_level = 1; return FALSE; }
+
+ if ((token_type == SEP_TT) && (token_value == SEMICOLON_SEP)) {
+ /* "Trace;" */
+ put_token_back();
+ i = ASSEMBLY_TK;
+ trace_level = &asm_trace_level;
+ j = 1;
+ goto HandleTraceKeyword;
+ }
+ if (token_type == NUMBER_TT) {
+ /* "Trace NUM;" */
+ i = ASSEMBLY_TK;
+ trace_level = &asm_trace_level;
+ j = token_value;
+ goto HandleTraceKeyword;
+ }
+ /* Anything else must be "Trace KEYWORD..." Remember that
+ 'on' and 'off' are trace keywords. */
+
if (token_type != TRACE_KEYWORD_TT)
return ebf_error_recover("debugging keyword", token_text);
trace_keywords.enabled = TRUE;
- i = token_value; j = 0;
+ /* Note that "Trace verbs" doesn't affect list_verbs_setting.
+ It shows the grammar at this point in the code. Setting
+ list_verbs_setting shows the grammar at the end of
+ compilation.
+ Same goes for "Trace dictionary" and list_dict_setting, etc. */
+
+ i = token_value;
+
switch(i)
- { case DICTIONARY_TK: break;
- case OBJECTS_TK: break;
- case VERBS_TK: break;
- default:
- switch(token_value)
- { case ASSEMBLY_TK:
- trace_level = &asm_trace_level; break;
- case EXPRESSIONS_TK:
- trace_level = &expr_trace_level; break;
- case LINES_TK:
- trace_level = &line_trace_level; break;
- case TOKENS_TK:
- trace_level = &tokens_trace_level; break;
- case LINKER_TK:
- trace_level = &linker_trace_level; break;
- case SYMBOLS_TK:
- trace_level = NULL; break;
- default:
- put_token_back();
- trace_level = &asm_trace_level; break;
- }
- j = 1;
- get_next_token();
- if ((token_type == SEP_TT) &&
- (token_value == SEMICOLON_SEP))
- { put_token_back(); break;
- }
- if (token_type == NUMBER_TT)
- { j = token_value; break; }
- if ((token_type == TRACE_KEYWORD_TT) && (token_value == ON_TK))
- { j = 1; break; }
- if ((token_type == TRACE_KEYWORD_TT) && (token_value == OFF_TK))
- { j = 0; break; }
- put_token_back(); break;
+ {
+ case ASSEMBLY_TK:
+ trace_level = &asm_trace_level; break;
+ case EXPRESSIONS_TK:
+ trace_level = &expr_trace_level; break;
+ case TOKENS_TK:
+ trace_level = &tokens_trace_level; break;
+ case LINKER_TK:
+ trace_level = &linker_trace_level; break;
+ case DICTIONARY_TK:
+ case SYMBOLS_TK:
+ case OBJECTS_TK:
+ case VERBS_TK:
+ trace_level = NULL; break;
+ case LINES_TK:
+ /* never implememented */
+ trace_level = NULL; break;
+ default:
+ put_token_back();
+ trace_level = &asm_trace_level; break;
+ }
+
+ j = 1;
+ get_next_token();
+ if ((token_type == SEP_TT) &&
+ (token_value == SEMICOLON_SEP))
+ { put_token_back();
+ }
+ else if (token_type == NUMBER_TT)
+ { j = token_value;
+ }
+ else if ((token_type == TRACE_KEYWORD_TT) && (token_value == ON_TK))
+ { j = 1;
}
+ else if ((token_type == TRACE_KEYWORD_TT) && (token_value == OFF_TK))
+ { j = 0;
+ }
+ else
+ { put_token_back();
+ }
+
+ trace_keywords.enabled = FALSE;
+
+ HandleTraceKeyword:
+ if (i == LINES_TK) {
+ warning_named("Trace option is not supported:", trace_keywords.keywords[i]);
+ break;
+ }
+
+ if (trace_level == NULL && j == 0) {
+ warning_named("Trace directive to display table at 'off' level has no effect: table", trace_keywords.keywords[i]);
+ break;
+ }
+
switch(i)
- { case DICTIONARY_TK: show_dictionary(); break;
- case OBJECTS_TK: list_object_tree(); break;
+ { case DICTIONARY_TK: show_dictionary(j); break;
+ case OBJECTS_TK: list_object_tree(); break;
case SYMBOLS_TK: list_symbols(j); break;
- case VERBS_TK: list_verb_table(); break;
+ case VERBS_TK: list_verb_table(); break;
default:
- *trace_level = j;
+ if (trace_level)
+ *trace_level = j;
break;
}
- trace_keywords.enabled = FALSE;
break;
/* --------------------------------------------------------------------- */
if (token_type != SYMBOL_TT)
return ebf_error_recover("symbol name", token_text);
- if (sflags[token_value] & UNKNOWN_SFLAG)
+ if (symbols[token_value].flags & UNKNOWN_SFLAG)
{ break; /* undef'ing an undefined constant is okay */
}
- if (stypes[token_value] != CONSTANT_T)
- { error_named("Cannot Undef a symbol which is not a defined constant:", (char *)symbs[token_value]);
+ if (symbols[token_value].type != CONSTANT_T)
+ { error_named("Cannot Undef a symbol which is not a defined constant:", symbols[token_value].name);
break;
}
{ write_debug_undef(token_value);
}
end_symbol_scope(token_value);
- sflags[token_value] |= USED_SFLAG;
+ symbols[token_value].flags |= USED_SFLAG;
break;
/* --------------------------------------------------------------------- */
break;
}
- if (module_switch && (AO.marker != 0))
- error("A definite value must be given as version number");
- else
- if (glulx_mode)
+ if (AO.marker != 0)
+ {
+ error("A definite value must be given as version number.");
+ break;
+ }
+ else if (no_routines > 1)
+ {
+ /* The built-in Main__ routine is number zero. */
+ error("A 'Version' directive must come before the first routine definition.");
+ break;
+ }
+ else if (glulx_mode)
{
warning("The Version directive does not work in Glulx. Use \
-vX.Y.Z instead, as either a command-line argument or a header comment.");
break;
}
else
- { i = AO.value;
+ {
+ int debtok;
+ i = AO.value;
if ((i<3) || (i>8))
{ error("The version number must be in the range 3 to 8");
break;
}
select_version(i);
+ /* We must now do a small dance to reset the DICT_ENTRY_BYTES
+ constant, which was defined at startup based on the Z-code
+ version.
+ The calculation here is repeated from select_target(). */
+ DICT_ENTRY_BYTE_LENGTH = ((version_number==3)?7:9) - (ZCODE_LESS_DICT_DATA?1:0);
+ debtok = symbol_index("DICT_ENTRY_BYTES", -1);
+ if (!(symbols[debtok].flags & UNKNOWN_SFLAG))
+ {
+ if (!(symbols[debtok].flags & REDEFINABLE_SFLAG))
+ {
+ warning("The DICT_ENTRY_BYTES symbol is not marked redefinable");
+ }
+ /* Redefine the symbol... */
+ assign_symbol(debtok, DICT_ENTRY_BYTE_LENGTH, CONSTANT_T);
+ }
}
}
break; /* see "inform.c" */