gambas-source-code/main/gbc/gbc_header.c
gambas 8a8b470c5a 'STATIC' keyword can be used instead of 'DIM' for declaring local static variables.
[COMPILER]
* NEW: 'STATIC' keyword can be used instead of 'DIM' for declaring local static variables.

[INTERPRETER]
* NEW: Support for local static variables.

[GB.DEBUG]
* NEW: Support for local static variables.
2021-06-01 23:12:55 +02:00

1220 lines
23 KiB
C

/***************************************************************************
gbc_header.c
(c) 2000-2017 Benoît Minisini <g4mba5@gmail.com>
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2, or (at your option)
any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston,
MA 02110-1301, USA.
***************************************************************************/
#define _TRANS_HEADER_C
#include <stdlib.h>
#include <string.h>
#include <stdio.h>
#include "gb_common.h"
#include "gb_error.h"
#include "gb_str.h"
#include "gb_file.h"
#include "gb_table.h"
#include "gbc_compile.h"
#include "gbc_trans.h"
#include "gbc_header.h"
#include "gb_code.h"
/*#define DEBUG*/
static void check_public_private(PATTERN **look, bool *is_public)
{
*is_public = JOB->is_module && JOB->public_module;
if (PATTERN_is(**look, RS_PUBLIC))
{
*is_public = TRUE;
(*look)++;
}
else if (PATTERN_is(**look, RS_PRIVATE))
{
*is_public = FALSE;
(*look)++;
}
}
static PATTERN *jump_expression(PATTERN *look)
{
int niv = 0;
for(;;)
{
if (PATTERN_is_newline(*look))
break;
if (PATTERN_is(*look, RS_LBRA) || PATTERN_is(*look, RS_LSQR))
{
niv++;
}
else if (PATTERN_is(*look, RS_RBRA) || PATTERN_is(*look, RS_RSQR))
{
if (niv > 0)
niv--;
else
break;
}
else if (niv == 0)
{
if (PATTERN_is(*look, RS_COMMA))
break;
}
look++;
}
return look;
}
static void analyze_function_desc(TRANS_FUNC *func, int flag)
{
PATTERN *look = JOB->current;
TRANS_PARAM *param;
//bool is_output;
bool is_optional = FALSE;
TRANS_DECL ttyp;
uint64_t byref_mask = 1;
if (PATTERN_is(*look, RS_LBRA))
{
func->no_warning = TRUE;
look++;
}
else
func->no_warning = FALSE;
if (!PATTERN_is_identifier(*look))
THROW("Syntax error. Invalid identifier in function name");
func->index = PATTERN_index(*look);
TYPE_clear(&func->type);
look++;
if (flag & HF_EVENT)
func->index = TABLE_copy_symbol_with_prefix(JOB->class->table, func->index, ':');
if (func->no_warning)
{
if (!PATTERN_is(*look, RS_RBRA))
THROW(E_MISSING, "')'");
look++;
}
func->nparam = 0;
func->byref = 0;
func->vararg = FALSE;
if ((flag & HF_VOID) && PATTERN_is_newline(*look))
{
JOB->current = ++look;
return;
}
if (!PATTERN_is(*look, RS_LBRA))
THROW_UNEXPECTED(look);
look++;
for(;;)
{
if (func->nparam >= MAX_PARAM_FUNC)
THROW("Too many arguments");
param = &func->param[func->nparam];
CLEAR(param);
if (PATTERN_is(*look, RS_RBRA))
{
look++;
break;
}
if (func->nparam > 0)
{
if (!PATTERN_is(*look, RS_COMMA))
THROW(E_SYNTAX_MISSING, "',' or ')'");
look++;
}
if (PATTERN_is(*look, RS_3PTS) && !(flag & HF_NO_3PTS))
{
look++;
if (!PATTERN_is(*look, RS_RBRA))
THROW("Syntax error. '...' must be the last argument"); //, get_num_desc(func->nparam + 1));
look++;
func->vararg = TRUE;
break;
}
//is_output = FALSE;
if (!(flag & HF_NO_OPT))
{
if (PATTERN_is(*look, RS_OPTIONAL))
{
look++;
is_optional = TRUE;
}
}
if (PATTERN_is(*look, RS_AT) || PATTERN_is(*look, RS_BYREF))
{
param->byref = TRUE;
func->byref |= byref_mask;
look++;
}
if (PATTERN_is(*look, RS_LBRA))
{
param->ignore = TRUE;
look++;
}
if (!PATTERN_is_identifier(*look))
THROW("Syntax error. The &1 argument is not a valid identifier", TRANS_get_num_desc(func->nparam + 1));
param->index = PATTERN_index(*look);
look++;
if (param->ignore)
{
if (!PATTERN_is(*look, RS_RBRA))
THROW(E_MISSING, "')'");
look++;
}
JOB->current = look;
if (!TRANS_type(TT_NOTHING, &ttyp))
THROW("Syntax error. Invalid type description of &1 argument", TRANS_get_num_desc(func->nparam + 1));
param->type = ttyp.type;
/*
if (is_output)
TYPE_set_flag(&param->type, TF_OUTPUT);
*/
look = JOB->current;
if (is_optional)
{
param->optional = look;
look = jump_expression(look);
JOB->current = look;
}
func->nparam++;
byref_mask <<= 1;
}
JOB->current = look;
}
static void header_module_type(void)
{
const char *ext;
const FORM_FAMILY *p;
/*JOB->class->name = STR_copy(FILE_get_name(JOB->name));*/
ext = FILE_get_ext(JOB->name);
JOB->is_test = FALSE;
JOB->is_form = FALSE;
if (strcasecmp(ext, "module") == 0)
{
JOB->is_module = TRUE;
}
else if (strcasecmp(ext, "test") == 0)
{
JOB->is_module = TRUE;
JOB->is_test = TRUE;
}
else if (strcasecmp(ext, "class") == 0)
{
JOB->is_module = FALSE;
}
else
{
p = COMP_form_families;
while (p->ext)
{
if (strcasecmp(ext, p->ext) == 0)
{
JOB->is_module = FALSE;
JOB->is_form = TRUE;
break;
}
p++;
}
if (!p->ext)
THROW("Unknown file extension");
}
JOB->declared = TRUE;
}
static bool header_event(TRANS_EVENT *event)
{
PATTERN *look = JOB->current;
//TRANS_DECL ttyp;
if (!PATTERN_is(*look, RS_EVENT))
return FALSE;
CLEAR(event);
if (JOB->is_module)
THROW("A module cannot raise events");
JOB->current++;
analyze_function_desc((TRANS_FUNC *)event, HF_VOID + HF_NO_BYREF + HF_NO_3PTS + HF_NO_OPT);
/*if (PATTERN_is(*JOB->current, RS_AS))
{
if (!TRANS_type(TT_CAN_SQUARE, &ttyp))
THROW("Syntax error in return type");
event->type = ttyp.type;
}*/
TYPE_set_kind(&event->type, TK_EVENT);
TYPE_set_flag(&event->type, TF_PUBLIC);
return TRUE;
}
static bool header_property(TRANS_PROPERTY *prop)
{
TRANS_DECL ptype = { 0 };
PATTERN *look = JOB->current;
bool is_static = FALSE;
bool is_public = TRUE;
CLEAR(prop);
/* static */
if (JOB->is_module)
{
is_static = TRUE;
}
else if (PATTERN_is(*look, RS_STATIC))
{
is_static = TRUE;
look++;
}
/* public */
if (PATTERN_is(*look, RS_PUBLIC) || PATTERN_is(*look, RS_PRIVATE))
{
is_public = PATTERN_is(*look, RS_PUBLIC);
look++;
}
if (!PATTERN_is(*look, RS_PROPERTY))
return FALSE;
look++;
JOB->current = look;
if (!is_public)
THROW("A property must be public");
/* read-only property */
if (PATTERN_is(*JOB->current, RS_READ))
{
prop->read = TRUE;
JOB->current++;
}
else
prop->read = FALSE;
/* property name */
if (!PATTERN_is_identifier(*JOB->current))
THROW("Syntax error. Identifier expected for property name");
prop->index = PATTERN_index(*JOB->current);
JOB->current++;
prop->nsynonymous = 0;
while (TRANS_is(RS_COMMA))
{
if (prop->nsynonymous == 3)
THROW("Too many property synonymous");
if (!PATTERN_is_identifier(*JOB->current))
THROW("Syntax error. Identifier expected for property synonymous");
prop->synonymous[prop->nsynonymous++] = PATTERN_index(*JOB->current);
JOB->current++;
}
if (!TRANS_type(TT_NOTHING, &ptype))
THROW("Syntax error. Invalid property type");
prop->type = ptype.type;
prop->line = JOB->line;
TYPE_set_kind(&prop->type, TK_PROPERTY);
if (is_static)
TYPE_set_flag(&prop->type, TF_STATIC);
TYPE_set_flag(&prop->type, TF_PUBLIC);
// property with variable
if (TRANS_is(RS_USE))
{
TRANS_DECL decl = ptype;
TYPE_set_kind(&decl.type, TK_VARIABLE);
if (is_static)
TYPE_set_flag(&decl.type, TF_STATIC);
if (!PATTERN_is_identifier(*JOB->current))
THROW("Syntax error. Identifier expected for property variable");
prop->use = PATTERN_index(*JOB->current);
JOB->current++;
decl.index = prop->use;
if (TRANS_is(RS_EQUAL))
decl.init = JOB->current;
CLASS_add_declaration(JOB->class, &decl);
}
if (PATTERN_is_string(*JOB->current))
{
prop->comment = PATTERN_index(*JOB->current);
JOB->current++;
}
else
prop->comment = NO_SYMBOL;
return TRUE;
}
static bool header_extern(TRANS_EXTERN *trans)
{
PATTERN *look = JOB->current;
TRANS_DECL ttyp;
int index;
bool is_public;
check_public_private(&look, &is_public);
if (!PATTERN_is(*look, RS_EXTERN))
return FALSE;
look++;
CLEAR(trans);
JOB->current = look;
analyze_function_desc((TRANS_FUNC *)trans, HF_NO_BYREF);
if (PATTERN_is(*JOB->current, RS_AS))
{
if (!TRANS_type(TT_NOTHING, &ttyp))
THROW("Syntax error in return type");
trans->type = ttyp.type;
}
if (TRANS_is(RS_IN))
{
if (!PATTERN_is_string(*JOB->current))
THROW("Library name must be a string");
index = PATTERN_index(*JOB->current);
JOB->current++;
}
else
{
if (JOB->default_library == NO_SYMBOL)
THROW(E_MISSING, "IN");
index = JOB->default_library;
}
trans->library = index;
if (TRANS_is(RS_EXEC))
{
if (!PATTERN_is_string(*JOB->current))
THROW("Alias name must be a string");
trans->alias = PATTERN_index(*JOB->current);
JOB->current++;
}
else
trans->alias = NO_SYMBOL;
TYPE_set_kind(&trans->type, TK_EXTERN);
TYPE_set_flag(&trans->type, TF_STATIC);
if (is_public) TYPE_set_flag(&trans->type, TF_PUBLIC);
return TRUE;
}
static bool header_class(TRANS_DECL *decl)
{
if (!TRANS_is(RS_CLASS))
return FALSE;
TRANS_want_class();
CLEAR(decl);
decl->index = PATTERN_index(*JOB->current);
JOB->current++;
return TRUE;
}
static bool header_declaration(TRANS_DECL *decl)
{
PATTERN *look = JOB->current;
PATTERN *save;
bool is_static = FALSE;
bool is_public = FALSE;
bool is_const = FALSE;
bool no_warning = FALSE;
/* static ! */
if (JOB->is_module)
{
is_static = TRUE;
}
else if (PATTERN_is(*look, RS_STATIC))
{
is_static = TRUE;
//has_static = TRUE;
look++;
}
check_public_private(&look, &is_public);
/* const ? */
is_const = FALSE;
if (PATTERN_is(*look, RS_CONST))
{
//if (has_static)
// THROW("Unexpected &1", "STATIC");
is_const = TRUE;
look++;
}
if (PATTERN_is(*look, RS_LBRA))
{
no_warning = TRUE;
look++;
}
if (!PATTERN_is_identifier(*look))
return FALSE;
CLEAR(decl);
decl->index = PATTERN_index(*look);
look++;
if (no_warning)
{
if (!PATTERN_is(*look, RS_RBRA))
return FALSE;
look++;
decl->no_warning = TRUE;
}
save = JOB->current;
JOB->current = look;
if (!TRANS_type((!is_const ? TT_CAN_ARRAY | TT_CAN_EMBED : 0) | TT_CAN_NEW, decl))
{
JOB->current = save;
return FALSE;
}
if (is_static) TYPE_set_flag(&decl->type, TF_STATIC);
if (is_public) TYPE_set_flag(&decl->type, TF_PUBLIC);
if (is_const)
TYPE_set_kind(&decl->type, TK_CONST);
else
TYPE_set_kind(&decl->type, TK_VARIABLE);
if (is_const)
{
if (!decl->init)
THROW(E_SYNTAX_MISSING, "'='");
JOB->current = decl->init;
JOB->current = TRANS_get_constant_value(decl, JOB->current);
}
//JOB->current = look;
return TRUE;
}
static bool header_enumeration(TRANS_DECL *decl)
{
PATTERN *look = JOB->current;
bool is_public;
int value = 0;
check_public_private(&look, &is_public);
if (!PATTERN_is(*look, RS_ENUM))
return FALSE;
look++;
JOB->current = look;
for(;;)
{
TRANS_newline();
if (!PATTERN_is_identifier(*JOB->current))
THROW("Syntax error. Identifier expected");
CLEAR(decl);
decl->index = PATTERN_index(*JOB->current);
JOB->current++;
decl->type = TYPE_make_simple(T_INTEGER);
if (is_public) TYPE_set_flag(&decl->type, TF_PUBLIC);
TYPE_set_kind(&decl->type, TK_CONST);
if (TRANS_is(RS_EQUAL))
{
JOB->current = TRANS_get_constant_value(decl, JOB->current);
value = decl->value + 1;
}
else
{
decl->value = value;
value++;
}
CLASS_add_declaration(JOB->class, decl);
if (TRANS_newline())
break;
if (!PATTERN_is(*JOB->current, RS_COMMA))
THROW_UNEXPECTED(JOB->current);
JOB->current++;
}
return TRUE;
}
static bool header_function(TRANS_FUNC *func)
{
static HEADER_SPECIAL spec[] =
{
{ "_init", HS_PUBLIC + HS_STATIC + HS_PROCEDURE + HS_NOPARAM },
{ "_exit", HS_PUBLIC + HS_STATIC + HS_PROCEDURE + HS_NOPARAM},
{ "_new", HS_PUBLIC + HS_DYNAMIC + HS_PROCEDURE },
{ "_free", HS_PUBLIC + HS_DYNAMIC + HS_PROCEDURE + HS_NOPARAM },
{ "_call", HS_PUBLIC },
{ "_get", HS_PUBLIC + HS_FUNCTION },
{ "_put", HS_PUBLIC + HS_PROCEDURE + HS_PUT },
{ "_next", HS_PUBLIC + HS_NOPARAM },
{ "_property", HS_PUBLIC + HS_NOPARAM + HS_FUNCTION + HS_PROPERTY },
{ "_unknown", HS_PUBLIC + HS_UNKNOWN },
{ "_compare", HS_PUBLIC + HS_DYNAMIC + HS_FUNCTION + HS_COMPARE },
{ "_attach", HS_PUBLIC + HS_DYNAMIC + HS_PROCEDURE + HS_ATTACH },
{ NULL, 0 }
};
PATTERN *look = JOB->current;
PATTERN pat;
TRANS_DECL ttyp;
SYMBOL *sym;
HEADER_SPECIAL *hsp;
bool is_proc = FALSE;
bool is_static = FALSE;
bool is_public = FALSE;
bool is_fast = FALSE;
bool is_unsafe = FALSE;
// fast ?
if (PATTERN_is(*look, RS_FAST))
{
is_fast = TRUE;
look++;
if (PATTERN_is(*look, RS_UNSAFE))
{
is_unsafe = TRUE;
look++;
}
}
// static ?
if (JOB->is_module)
{
is_static = TRUE;
}
else if (PATTERN_is(*look, RS_STATIC))
{
is_static = TRUE;
look++;
}
// public ou static ?
is_public = JOB->is_module && JOB->public_module;
if (PATTERN_is(*look, RS_PUBLIC))
{
is_public = TRUE;
look++;
}
else if (PATTERN_is(*look, RS_PRIVATE))
{
is_public = FALSE;
look++;
}
if (PATTERN_is(*look, RS_PROCEDURE) || PATTERN_is(*look, RS_SUB))
is_proc = TRUE;
else if (!PATTERN_is(*look, RS_FUNCTION))
return FALSE;
look++;
//CLEAR(func);
JOB->current = look;
analyze_function_desc(func, HF_NORMAL);
if (PATTERN_is(*JOB->current, RS_AS))
{
if (!TRANS_type(TT_NOTHING, &ttyp))
THROW("Syntax error. Invalid return type");
func->type = ttyp.type;
is_proc = FALSE;
}
TYPE_set_kind(&func->type, TK_FUNCTION);
if (is_static) TYPE_set_flag(&func->type, TF_STATIC);
if (is_public) TYPE_set_flag(&func->type, TF_PUBLIC);
func->fast = is_fast || JOB->class->all_fast;
if (func->fast)
JOB->class->has_fast = TRUE;
func->unsafe = is_unsafe || JOB->class->all_unsafe;
// Check special methods
sym = TABLE_get_symbol(JOB->class->table, func->index);
if (*sym->name == '_')
{
for (hsp = spec; hsp->name; hsp++)
{
if (sym->len != strlen(hsp->name))
continue;
if (strncmp(sym->name, hsp->name, sym->len))
continue;
if (hsp->flag == HS_ERROR)
THROW("The special method &1 cannot be implemented", hsp->name);
if ((hsp->flag & HS_PUBLIC) && !is_public)
THROW("The special method &1 must be public", hsp->name);
if ((hsp->flag & HS_STATIC) && !is_static)
THROW("The special method &1 must be static", hsp->name);
if ((hsp->flag & HS_DYNAMIC) && is_static)
THROW("The special method &1 cannot be static", hsp->name);
if ((hsp->flag & HS_PROCEDURE) && !is_proc)
THROW("The special method &1 cannot be a function", hsp->name);
if ((hsp->flag & HS_FUNCTION) && is_proc)
THROW("The special method &1 must be a function", hsp->name);
if ((hsp->flag & HS_NOPARAM) && func->nparam > 0)
THROW("The special method &1 takes no arguments", hsp->name);
if (hsp->flag & HS_PUT)
{
if (func->nparam < 1)
THROW("The special method &1 must take at least one argument", hsp->name);
}
if (hsp->flag & HS_UNKNOWN)
{
if (func->nparam > 0 || !func->vararg)
THROW("The special method &1 must take a variable number of arguments only", hsp->name);
}
if (hsp->flag & HS_PROPERTY)
{
if (TYPE_get_id(func->type) != T_BOOLEAN)
THROW("The special method &1 must return a boolean", hsp->name);
}
if (hsp->flag & HS_COMPARE)
{
if (func->type.t.id != T_INTEGER)
THROW("The special method must return an integer");
if (func->nparam != 1)
THROW("The special method must take exactly one argument");
}
if (hsp->flag & HS_ATTACH)
{
if (func->nparam != 2)
THROW("The special method must take exactly two arguments");
if (func->param[0].type.t.id != T_OBJECT || func->param[1].type.t.id != T_STRING)
THROW("The special method signature is incorrect");
}
break;
}
}
// We ignore function body
if (!PATTERN_is_newline(*(JOB->current)))
THROW("Syntax error at function declaration");
func->line = JOB->line = PATTERN_index(*(JOB->current)) + 1;
func->start = JOB->current + 1;
look = JOB->current;
for(;;)
{
pat = *look;
if (PATTERN_is_newline(pat))
{
JOB->line = PATTERN_index(pat) + 1;
pat = look[1];
if (PATTERN_is(pat, RS_END))
{
if (PATTERN_is_newline(look[2]))
{
look += 2;
break;
}
if (TRANS_is_end_function(is_proc, &look[2]))
{
look += 3;
break;
}
else
{
if (is_proc && PATTERN_is(look[2], RS_FUNCTION))
THROW(E_EXPECTED, "END SUB");
else if (!is_proc && PATTERN_is(look[2], RS_SUB))
THROW(E_EXPECTED, "END FUNCTION");
}
}
else if (PATTERN_is_end(pat))
THROW(E_MISSING, "END");
}
look++;
}
JOB->current = look;
return TRUE;
}
static bool header_inherits(void)
{
int index;
if (!PATTERN_is(*JOB->current, RS_INHERITS))
return FALSE;
/*{
if (!(PATTERN_is(JOB->current[0], RS_CLASS)
&& PATTERN_is(JOB->current[1], RS_INHERITS)))
return FALSE;
JOB->current++;
}*/
JOB->current++;
TRANS_want_class();
if (JOB->class->parent != NO_SYMBOL)
THROW("Class already has a parent");
index = PATTERN_index(*JOB->current);
if (strcasecmp(TABLE_get_symbol_name(JOB->class->table, index), JOB->class->name) == 0)
THROW("Cannot inherit itself");
JOB->class->parent = CLASS_add_class(JOB->class, index);
/*printf("JOB->class->parent = %d\n", JOB->class->parent);*/
JOB->current++;
return TRUE;
}
static bool header_option(void)
{
if (TRANS_is(RS_EXPORT))
{
if (JOB->class->exported)
THROW("Class is already exported");
JOB->class->exported = TRUE;
if (TRANS_is(RS_OPTIONAL))
JOB->class->optional = TRUE;
if (TRANS_is(RS_AS))
{
TRANS_want_class();
JOB->class->export_name = STR_copy(TABLE_get_symbol_name(JOB->class->table, PATTERN_index(*JOB->current)));
JOB->current++;
}
else if (TRANS_is(RS_TO))
{
if (TRANS_is(RS_DEFAULT))
{
JOB->class->export_name = NULL;
}
else
{
if (!PATTERN_is_identifier(*JOB->current))
THROW("Syntax error. Identifier expected for namespace");
JOB->class->export_name = STR_cat(TABLE_get_symbol_name(JOB->class->table, PATTERN_index(*JOB->current)), ":", JOB->class->name, NULL);
JOB->current++;
}
}
else if (COMP_default_namespace)
{
JOB->class->export_name = STR_cat(COMP_default_namespace, ":", JOB->class->name, NULL);
}
return TRUE;
}
if (TRANS_is(RS_CREATE))
{
if (PATTERN_is_newline(JOB->current[0]) || PATTERN_is(JOB->current[0], RS_STATIC))
{
JOB->class->autocreate = TRUE;
TRANS_ignore(RS_STATIC);
return TRUE;
}
else if (TRANS_is(RS_PRIVATE))
{
JOB->class->nocreate = TRUE;
return TRUE;
}
}
if (TRANS_is(RS_FAST))
{
JOB->class->all_fast = TRUE;
JOB->class->has_fast = TRUE;
if (TRANS_is(RS_UNSAFE))
JOB->class->all_unsafe = TRUE;
return TRUE;
}
return FALSE;
}
static bool header_library(void)
{
if (!TRANS_is(RS_LIBRARY))
return FALSE;
if (!PATTERN_is_string(*JOB->current))
THROW("Extern library name must be a string");
JOB->default_library = PATTERN_index(*JOB->current);
JOB->current++;
return TRUE;
}
static bool header_structure(void)
{
PATTERN *look = JOB->current;
bool is_public;
CLASS_STRUCT *structure;
VARIABLE *field;
TRANS_DECL decl;
int nfield;
int index;
check_public_private(&look, &is_public);
if (!PATTERN_is(*look, RS_STRUCT))
return FALSE;
look++;
JOB->current = look;
if (!is_public)
THROW("Structures must be public");
if (!PATTERN_is_identifier(*JOB->current))
THROW("Syntax error. STRUCT must be followed by an identifier");
structure = ARRAY_add_void(&JOB->class->structure);
ARRAY_create(&structure->field);
nfield = 0;
structure->index = PATTERN_index(*JOB->current);
index = CLASS_add_class_exported(JOB->class, structure->index);
JOB->class->class[index].structure = TRUE;
//fprintf(stderr, "Set structure flag to %s\n", TABLE_get_symbol_name(JOB->class->table, structure->index));
//TABLE_copy_symbol_with_prefix(JOB->class->table, structure->index, '.', NULL, &structure->index);
JOB->current++;
TRANS_want_newline();
for(;;)
{
do
{
if (PATTERN_is_end(*JOB->current)) // || PATTERN_is_command(*JOB->current))
THROW ("Missing END STRUCT");
}
while (TRANS_newline());
if (PATTERN_is(*JOB->current, RS_END) && PATTERN_is(JOB->current[1], RS_STRUCT))
{
if (nfield == 0)
THROW ("Syntax error. A structure must have one field at least.");
JOB->current += 2;
TRANS_want_newline();
break;
}
if (!PATTERN_is_identifier(*JOB->current))
THROW("Syntax error. The &1 field is not a valid identifier", TRANS_get_num_desc(nfield + 1));
field = ARRAY_add(&structure->field);
field->index = PATTERN_index(*JOB->current);
JOB->current++;
CLEAR(&decl);
if (!TRANS_type(TT_CAN_ARRAY | TT_CAN_EMBED, &decl))
THROW("Syntax error. Invalid type description of &1 field", TRANS_get_num_desc(nfield + 1));
TRANS_want_newline();
field->type = decl.type;
nfield++;
}
structure->nfield = nfield;
return TRUE;
}
static bool header_use(void)
{
if (!TRANS_is(RS_USE))
return FALSE;
CLASS_set_current_init_function(JOB->class, FUNC_INIT_STATIC);
for(;;)
{
if (!PATTERN_is_string(*JOB->current))
THROW("Component name must be a string");
TRANS_string(*JOB->current);
TRANS_subr(TS_SUBR_USE, 1);
CODE_drop();
JOB->current++;
if (!TRANS_is(RS_COMMA))
break;
}
if (!PATTERN_is_newline(*JOB->current))
THROW(E_SYNTAX);
return TRUE;
}
static void check_class_header()
{
while (TRUE) //(JOB->current < JOB->end)
{
if (PATTERN_is_end(*JOB->current))
break;
if (TRANS_newline())
continue;
if (header_option())
continue;
if (header_inherits())
continue;
break;
}
}
void HEADER_do(void)
{
union {
TRANS_DECL decl;
TRANS_FUNC func;
TRANS_EVENT event;
TRANS_EXTERN ext;
TRANS_PROPERTY prop;
} trans;
TRANS_reset();
header_module_type();
if (JOB->line == 1)
check_class_header();
while (TRUE) //JOB->current < JOB->end)
{
if (PATTERN_is_end(*JOB->current))
break;
if (TRANS_newline())
{
if (JOB->line == 1)
check_class_header();
continue;
}
if (header_function(&trans.func))
{
CLASS_add_function(JOB->class, &trans.func);
continue;
}
if (header_event(&trans.event))
{
CLASS_add_event(JOB->class, &trans.event);
continue;
}
if (header_property(&trans.prop))
{
CLASS_add_property(JOB->class, &trans.prop);
continue;
}
if (header_extern(&trans.ext))
{
CLASS_add_extern(JOB->class, &trans.ext);
continue;
}
if (header_enumeration(&trans.decl))
continue;
if (header_declaration(&trans.decl))
{
CLASS_add_declaration(JOB->class, &trans.decl);
continue;
}
if (header_structure())
continue;
if (header_class(&trans.decl))
{
CLASS_add_class_exported(JOB->class, trans.decl.index);
continue;
}
if (header_inherits())
continue;
if (header_library())
continue;
if (header_use())
continue;
/*if (PATTERN_is_command(*JOB->current))
{
JOB->current++;
continue;
}*/
THROW_UNEXPECTED(JOB->current);
}
// Sort class declaration to avoid alignment problems.
// This should be useless now, as it is done again by the interpreter
// when loading the class.
CLASS_sort_declaration(JOB->class);
if (COMP_verbose)
CLASS_dump();
}