/usr/include/titan/Float.hh is in eclipse-titan 6.3.1-1build1.
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* Copyright (c) 2000-2017 Ericsson Telecom AB
* All rights reserved. This program and the accompanying materials
* are made available under the terms of the Eclipse Public License v1.0
* which accompanies this distribution, and is available at
* http://www.eclipse.org/legal/epl-v10.html
*
* Contributors:
* Balasko, Jeno
* Baranyi, Botond
* Beres, Szabolcs
* Delic, Adam
* Forstner, Matyas
* Raduly, Csaba
* Szabados, Kristof
* Szabo, Bence Janos
* Szabo, Janos Zoltan – initial implementation
* Szalai, Gabor
* Tatarka, Gabor
*
******************************************************************************/
#ifndef FLOAT_HH
#define FLOAT_HH
#include "Basetype.hh"
#include "Template.hh"
#include "Error.hh"
#include "ttcn3float.hh"
class Module_Param;
template<typename T>
class OPTIONAL;
// float value class
class FLOAT : public Base_Type {
friend class FLOAT_template;
friend class TIMER;
friend double operator+(double double_value, const FLOAT& other_value);
friend double operator-(double double_value, const FLOAT& other_value);
friend double operator*(double double_value, const FLOAT& other_value);
friend double operator/(double double_value, const FLOAT& other_value);
friend boolean operator==(double double_value, const FLOAT& other_value);
friend boolean operator< (double double_value, const FLOAT& other_value);
friend boolean operator> (double double_value, const FLOAT& other_value);
boolean bound_flag;
ttcn3float float_value;
/** Returns true if the string parameter contains the string representation
* of a real number, otherwise returns false. */
boolean is_float(const char* p_str);
public:
FLOAT();
FLOAT(double other_value);
FLOAT(const FLOAT& other_value);
void clean_up();
FLOAT& operator=(double other_value);
FLOAT& operator=(const FLOAT& other_value);
double operator+() const;
double operator-() const;
double operator+(double other_value) const;
double operator+(const FLOAT& other_value) const;
double operator-(double other_value) const;
double operator-(const FLOAT& other_value) const;
double operator*(double other_value) const;
double operator*(const FLOAT& other_value) const;
double operator/(double other_value) const;
double operator/(const FLOAT& other_value) const;
boolean operator==(double other_value) const;
boolean operator==(const FLOAT& other_value) const;
inline boolean operator!=(double other_value) const
{ return !(*this == other_value); }
inline boolean operator!=(const FLOAT& other_value) const
{ return !(*this == other_value); }
boolean operator<(double other_value) const;
boolean operator<(const FLOAT& other_value) const;
boolean operator>(double other_value) const;
boolean operator>(const FLOAT& other_value) const;
inline boolean operator<=(double other_value) const
{ return !(*this > other_value); }
inline boolean operator<=(const FLOAT& other_value) const
{ return !(*this > other_value); }
inline boolean operator>=(double other_value) const
{ return !(*this < other_value); }
inline boolean operator>=(const FLOAT& other_value) const
{ return !(*this < other_value); }
operator double() const;
inline boolean is_bound() const { return bound_flag; }
inline boolean is_value() const { return bound_flag; }
inline void must_bound(const char *err_msg) const
{ if (!bound_flag) TTCN_error("%s", err_msg); }
/** special TTCN-3 float values are not_a_number and +/- infinity */
static boolean is_special(double flt_val);
static void check_numeric(double flt_val, const char *err_msg_begin);
void log() const;
#ifdef TITAN_RUNTIME_2
boolean is_equal(const Base_Type* other_value) const { return *this == *(static_cast<const FLOAT*>(other_value)); }
void set_value(const Base_Type* other_value) { *this = *(static_cast<const FLOAT*>(other_value)); }
Base_Type* clone() const { return new FLOAT(*this); }
const TTCN_Typedescriptor_t* get_descriptor() const { return &FLOAT_descr_; }
Module_Param* get_param(Module_Param_Name& param_name) const;
#else
inline boolean is_present() const { return is_bound(); }
#endif
void set_param(Module_Param& param);
void encode_text(Text_Buf& text_buf) const;
void decode_text(Text_Buf& text_buf);
void encode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf,
TTCN_EncDec::coding_t p_coding, ...) const;
void decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf,
TTCN_EncDec::coding_t p_coding, ...);
ASN_BER_TLV_t* BER_encode_TLV(const TTCN_Typedescriptor_t& p_td,
unsigned p_coding) const;
boolean BER_decode_TLV(const TTCN_Typedescriptor_t& p_td,
const ASN_BER_TLV_t& p_tlv, unsigned L_form);
/** Encodes the value of the variable according to the
* TTCN_Typedescriptor_t. It must be public because called by
* another types during encoding. Returns the length of encoded data*/
int RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree&) const;
/** Decodes the value of the variable according to the
* TTCN_Typedescriptor_t. It must be public because called by
* another types during encoding. Returns the number of decoded bits*/
int RAW_decode(const TTCN_Typedescriptor_t&,
TTCN_Buffer&, int, raw_order_t, boolean no_err=FALSE,
int sel_field=-1, boolean first_call=TRUE);
int XER_encode(const XERdescriptor_t& p_td,
TTCN_Buffer& p_buf, unsigned int flavor, unsigned int flavor2, int indent, embed_values_enc_struct_t*) const;
int XER_decode(const XERdescriptor_t& p_td, XmlReaderWrap& reader,
unsigned int flavor, unsigned int flavor2, embed_values_dec_struct_t*);
/** Encodes accordingly to the JSON encoding rules.
* Returns the length of the encoded data. */
int JSON_encode(const TTCN_Typedescriptor_t&, JSON_Tokenizer&) const;
/** Decodes accordingly to the JSON encoding rules.
* Returns the length of the decoded data. */
int JSON_decode(const TTCN_Typedescriptor_t&, JSON_Tokenizer&, boolean);
/** Encodes accordingly to the OER encoding rules.
* Returns the length of the encoded data. */
int OER_encode(const TTCN_Typedescriptor_t&, TTCN_Buffer&) const;
/** Decodes accordingly to the OER encoding rules.
* Returns the length of the decoded data. */
int OER_decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, OER_struct&);
};
extern double operator+(double double_value, const FLOAT& other_value);
extern double operator-(double double_value, const FLOAT& other_value);
extern double operator*(double double_value, const FLOAT& other_value);
extern double operator/(double double_value, const FLOAT& other_value);
extern boolean operator==(double double_value, const FLOAT& other_value);
extern boolean operator<(double double_value, const FLOAT& other_value);
extern boolean operator>(double double_value, const FLOAT& other_value);
inline boolean operator!=(double double_value, const FLOAT& other_value)
{
return !(double_value == other_value);
}
inline boolean operator<=(double double_value, const FLOAT& other_value)
{
return !(double_value > other_value);
}
inline boolean operator>=(double double_value, const FLOAT& other_value)
{
return !(double_value < other_value);
}
// float template class
class FLOAT_template : public Base_Template {
private:
union {
double single_value;
struct {
unsigned int n_values;
FLOAT_template *list_value;
} value_list;
struct {
double min_value, max_value;
boolean min_is_present, max_is_present;
boolean min_is_exclusive, max_is_exclusive;
} value_range;
};
void copy_template(const FLOAT_template& other_value);
public:
FLOAT_template();
FLOAT_template(template_sel other_value);
FLOAT_template(double other_value);
FLOAT_template(const FLOAT& other_value);
FLOAT_template(const OPTIONAL<FLOAT>& other_value);
FLOAT_template(const FLOAT_template& other_value);
~FLOAT_template();
void clean_up();
FLOAT_template& operator=(template_sel other_value);
FLOAT_template& operator=(double other_value);
FLOAT_template& operator=(const FLOAT& other_value);
FLOAT_template& operator=(const OPTIONAL<FLOAT>& other_value);
FLOAT_template& operator=(const FLOAT_template& other_value);
boolean match(double other_value, boolean legacy = FALSE) const;
boolean match(const FLOAT& other_value, boolean legacy = FALSE) const;
void set_type(template_sel template_type, unsigned int list_length = 0);
FLOAT_template& list_item(unsigned int list_index);
void set_min(double min_value);
void set_min(const FLOAT& min_value);
void set_max(double max_value);
void set_max(const FLOAT& max_value);
void set_min_exclusive(boolean min_exclusive);
void set_max_exclusive(boolean max_exclusive);
double valueof() const;
void log() const;
void log_match(const FLOAT& match_value, boolean legacy = FALSE) const;
void set_param(Module_Param& param);
void encode_text(Text_Buf& text_buf) const;
void decode_text(Text_Buf& text_buf);
boolean is_present(boolean legacy = FALSE) const;
boolean match_omit(boolean legacy = FALSE) const;
#ifdef TITAN_RUNTIME_2
Module_Param* get_param(Module_Param_Name& param_name) const;
void valueofv(Base_Type* value) const { *(static_cast<FLOAT*>(value)) = valueof(); }
void set_value(template_sel other_value) { *this = other_value; }
void copy_value(const Base_Type* other_value) { *this = *(static_cast<const FLOAT*>(other_value)); }
Base_Template* clone() const { return new FLOAT_template(*this); }
const TTCN_Typedescriptor_t* get_descriptor() const { return &FLOAT_descr_; }
boolean matchv(const Base_Type* other_value, boolean legacy) const { return match(*(static_cast<const FLOAT*>(other_value)), legacy); }
void log_matchv(const Base_Type* match_value, boolean legacy) const { log_match(*(static_cast<const FLOAT*>(match_value)), legacy); }
#else
void check_restriction(template_res t_res, const char* t_name=NULL, boolean legacy = FALSE) const;
#endif
};
extern const FLOAT PLUS_INFINITY, MINUS_INFINITY, NOT_A_NUMBER;
#endif
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