コード例 #1
0
ファイル: parse.c プロジェクト: going-digital/versaload
void asm_echo(const char *msg, struct atom *atom)
{
    struct vec_iterator i[1];
    struct expr **exprp;
    int count = 0;
    i32 e[10];

    if(atom != NULL)
    {
        if(atom->type != ATOM_TYPE_EXPRS || vec_count(atom->u.exprs) > 10)
        {
            LOG(LOG_ERROR, ("echo arguments must be a string followed by none "
                            "or at most ten expressions.\n"));
            exit(1);
        }

        vec_get_iterator(atom->u.exprs, i);
        while((exprp = vec_iterator_next(i)) != NULL)
        {
            e[count++] = resolve_expr(*exprp);
        }
    }
    for(; count < 10; ++count)
    {
        e[count] = 0;
    }
    fprintf(stdout, msg, e[0], e[1], e[2], e[3],
            e[4], e[5], e[6], e[7], e[8], e[9]);
    fprintf(stdout, "\n");
}
コード例 #2
0
ファイル: settings.c プロジェクト: derand/findObjects
int settings_test_object_name(settings_t* sttngs, const char* oname)
{
	int rv = 0;
	for (int i=0; i<vec_count(sttngs->black_list); i++)
	{
		if (strcmp(sttngs->black_list[i], oname)==0)
		{
			rv = 1;
			break;
		}
	}
	return rv;
}
コード例 #3
0
ファイル: parse.c プロジェクト: going-digital/versaload
struct atom *exprs_to_word_exprs(struct atom *atom)
{
    if(atom->type != ATOM_TYPE_EXPRS)
    {
        LOG(LOG_ERROR, ("can't convert exprs of type %d to word exprs.\n",
                        atom->type));
        exit(1);
    }
    atom->type = ATOM_TYPE_WORD_EXPRS;

    pc_add(vec_count(atom->u.exprs) * 2);
    return atom;
}
コード例 #4
0
ファイル: parse.c プロジェクト: going-digital/versaload
struct atom *exprs_to_byte_exprs(struct atom *atom)
{
    if(atom->type != ATOM_TYPE_EXPRS)
    {
        LOG(LOG_ERROR, ("can't convert atom of type %d to byte exprs.\n",
                        atom->type));
        exit(1);
    }
    atom->type = ATOM_TYPE_BYTE_EXPRS;

    pc_add(vec_count(atom->u.exprs));
    return atom;
}
コード例 #5
0
ファイル: settings.c プロジェクト: derand/findObjects
void settings_free(settings_t* sttngs)
{
	if (sttngs)
	{
		sfree(sttngs->report_html_font_size);
		for(int i=0; i<vec_count(sttngs->black_list); i++)
		{
			free(sttngs->black_list[i]);
		}
		vec_free(sttngs->black_list);

		sfree(sttngs->dir);
		sfree(sttngs->orb_file);
		free(sttngs);
	}
}
コード例 #6
0
ファイル: settings.c プロジェクト: derand/findObjects
void settings_dump(settings_t* sttngs)
{
	char* start_str = time2str(sttngs->start, 1);
	char* end_str = time2str(sttngs->stop, 1);
	printf("settings dump:\n\tstart: %s\n\tstop: %s\n\tmag:%.2f\n\tRA_min:%.2f\n\tRA_max:%.2f\n\tdecl_min:%.2f\n\tdecl_max:%.2f\n\tra_position_min:%f\n\tra_position_max:%f\n\treport_html_font_size:%s\n\tdir:\"%s\"\n\tBlack list:", start_str, end_str, sttngs->mag_min, sttngs->ra_rate_min, sttngs->ra_rate_max, sttngs->decl_rate_min, sttngs->decl_rate_max, sttngs->ra_position_min, sttngs->ra_position_max, sttngs->report_html_font_size, sttngs->dir);
	for (int i=0; i<vec_count(sttngs->black_list); i++)
	{
		printf(" %s", sttngs->black_list[i]);
	}
	printf("\n\tuse_orb_file: %s", sttngs->use_orb_file?"Yes":"No");
	if (sttngs->orb_file)
	{
		printf("\n\torb_file: %s", sttngs->orb_file);
	}
	printf("\n\n");
	free(start_str);
	free(end_str);
}
コード例 #7
0
ファイル: parse.c プロジェクト: going-digital/versaload
void output_atoms(struct membuf *out, struct vec *atoms)
{
    struct vec_iterator i[1];
    struct vec_iterator i2[1];
    struct atom **atomp;
    struct atom *atom;
    struct expr **exprp;
    struct expr *expr;
    struct membuf *in;
    const char *p;
    i32 value;
    i32 value2;

    dump_sym_table(LOG_DEBUG, s->sym_table);

    vec_get_iterator(atoms, i);
    while((atomp = vec_iterator_next(i)) != NULL)
    {
        atom = *atomp;

        LOG(LOG_DEBUG, ("yadda\n"));

        switch(atom->type)
        {
        case ATOM_TYPE_OP_ARG_NONE:
            LOG(LOG_DEBUG, ("output: $%02X\n", atom->u.op.code));
            membuf_append_char(out, atom->u.op.code);
            break;
        case ATOM_TYPE_OP_ARG_U8:
            /* op with argument */
            value = resolve_expr(atom->u.op.arg);
            if(!is_valid_u8(value))
            {
                LOG(LOG_ERROR, ("value %d out of range for op $%02X @%p\n",
                                value, atom->u.op.code, (void*)atom));
                exit(1);
            }
            LOG(LOG_DEBUG, ("output: $%02X $%02X\n",
                            atom->u.op.code, value & 255));
            membuf_append_char(out, atom->u.op.code);
            membuf_append_char(out, value);
            break;
        case ATOM_TYPE_OP_ARG_I8:
            /* op with argument */
            value = resolve_expr(atom->u.op.arg);
            if(!is_valid_i8(value))
            {
                LOG(LOG_ERROR, ("value %d out of range for op $%02X @%p\n",
                                value, atom->u.op.code, (void*)atom));
                exit(1);
            }
            LOG(LOG_DEBUG, ("output: $%02X $%02X\n",
                            atom->u.op.code, value & 255));
            membuf_append_char(out, atom->u.op.code);
            membuf_append_char(out, value);
            break;
        case ATOM_TYPE_OP_ARG_UI8:
            /* op with argument */
            value = resolve_expr(atom->u.op.arg);
            if(!is_valid_ui8(value))
            {
                LOG(LOG_ERROR, ("value %d out of range for op $%02X @%p\n",
                                value, atom->u.op.code, (void*)atom));
                exit(1);
            }
            LOG(LOG_DEBUG, ("output: $%02X $%02X\n",
                            atom->u.op.code, value & 255));
            membuf_append_char(out, atom->u.op.code);
            membuf_append_char(out, value);
            break;
        case ATOM_TYPE_OP_ARG_U16:
            /* op with argument */
            value = resolve_expr(atom->u.op.arg);
            if(!is_valid_u16(value))
            {
                LOG(LOG_ERROR, ("value %d out of range for op $%02X @%p\n",
                                value, atom->u.op.code, (void*)atom));
                exit(1);
            }
            value2 = value / 256;
            value = value % 256;
            LOG(LOG_DEBUG, ("output: $%02X $%02X $%02X\n",
                            atom->u.op.code,
                            value, value2));
            membuf_append_char(out, atom->u.op.code);
            membuf_append_char(out, value);
            membuf_append_char(out, value2);
            break;
        case ATOM_TYPE_RES:
            /* reserve memory statement */
            value = resolve_expr(atom->u.res.length);
            if(!is_valid_u16(value))
            {
                LOG(LOG_ERROR, ("length %d for .res(length, value) "
                                "is out of range\n", value));
                exit(1);
            }
            value2 = resolve_expr(atom->u.res.value);
            if(!is_valid_ui8(value2))
            {
                LOG(LOG_ERROR, ("value %d for .res(length, value) "
                                "is out of range\n", value));
                exit(1);
            }
            LOG(LOG_DEBUG, ("output: .RES %d, %d\n", value, value2));
            while(--value >= 0)
            {
                membuf_append_char(out, value2);
            }
            break;
        case ATOM_TYPE_BUFFER:
            /* include binary file statement */
            value = atom->u.buffer.skip;
            if(!is_valid_u16(value))
            {
                LOG(LOG_ERROR, ("value %d for .res(length, value) "
                                "is out of range\n", value));
                exit(1);
            }
            value2 = atom->u.buffer.length;
            if(!is_valid_u16(value2))
            {
                LOG(LOG_ERROR, ("length %d for .incbin(name, skip, length) "
                                "is out of range\n", value2));
                exit(1);
            }
            LOG(LOG_DEBUG, ("output: .INCBIN \"%s\", %d, %d\n",
                            atom->u.buffer.name, value, value2));
            in = get_named_buffer(s->named_buffer, atom->u.buffer.name);
            p = membuf_get(in);
            p += value;
            while(--value2 >= 0)
            {
                membuf_append_char(out, *p++);
            }
            break;
        case ATOM_TYPE_WORD_EXPRS:
            vec_get_iterator(atom->u.exprs, i2);
            while((exprp = vec_iterator_next(i2)) != NULL)
            {
                expr = *exprp;
                value = resolve_expr(expr);
                if(!is_valid_ui16(value))
                {
                    LOG(LOG_ERROR, ("value %d for .word(value, ...) "
                                    "is out of range\n", value));
                }
                value2 = value / 256;
                value = value % 256;
                membuf_append_char(out, value);
                membuf_append_char(out, value2);
            }
            LOG(LOG_DEBUG, ("output: %d words\n", vec_count(atom->u.exprs)));
            break;
        case ATOM_TYPE_BYTE_EXPRS:
            vec_get_iterator(atom->u.exprs, i2);
            while((exprp = vec_iterator_next(i2)) != NULL)
            {
                expr = *exprp;
                value = resolve_expr(expr);
                if(!is_valid_ui8(value))
                {
                    LOG(LOG_ERROR, ("value %d for .byte(value, ...) "
                                    "is out of range\n", value));
                }
                membuf_append_char(out, value);
            }
            LOG(LOG_DEBUG, ("output: %d bytes\n", vec_count(atom->u.exprs)));
            break;
        default:
            LOG(LOG_ERROR, ("invalid atom_type %d @%p\n",
                            atom->type, (void*)atom));
            exit(1);
        }
    }
}