Removing m_ prefix from identifiers (m_ValueType -> ValueType, ...).
This commit is contained in:
Ruben Ayrapetyan
@@ -41,11 +41,11 @@ ecma_CompletionValue_t
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ecma_OpHasBinding(ecma_Object_t *lex_env_p, /**< lexical environment */
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ecma_Char_t *name_p) /**< argument N */
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{
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JERRY_ASSERT( lex_env_p != NULL && lex_env_p->m_IsLexicalEnvironment );
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JERRY_ASSERT( lex_env_p != NULL && lex_env_p->IsLexicalEnvironment );
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ecma_SimpleValue_t has_binding = ECMA_SIMPLE_VALUE_UNDEFINED;
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switch ( (ecma_LexicalEnvironmentType_t) lex_env_p->u.m_LexicalEnvironment.m_Type )
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switch ( (ecma_LexicalEnvironmentType_t) lex_env_p->u.LexicalEnvironment.Type )
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{
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case ECMA_LEXICAL_ENVIRONMENT_DECLARATIVE:
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{
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@@ -81,10 +81,10 @@ ecma_OpCreateMutableBinding(ecma_Object_t *lex_env_p, /**< lexical environment *
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ecma_Char_t *name_p, /**< argument N */
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bool is_deletable) /**< argument D */
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{
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JERRY_ASSERT( lex_env_p != NULL && lex_env_p->m_IsLexicalEnvironment );
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JERRY_ASSERT( lex_env_p != NULL && lex_env_p->IsLexicalEnvironment );
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JERRY_ASSERT( name_p != NULL );
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switch ( (ecma_LexicalEnvironmentType_t) lex_env_p->u.m_LexicalEnvironment.m_Type )
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switch ( (ecma_LexicalEnvironmentType_t) lex_env_p->u.LexicalEnvironment.Type )
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{
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case ECMA_LEXICAL_ENVIRONMENT_DECLARATIVE:
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{
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@@ -125,21 +125,21 @@ ecma_OpSetMutableBinding(ecma_Object_t *lex_env_p, /**< lexical environment */
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ecma_Value_t value, /**< argument V */
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bool is_strict) /**< argument S */
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{
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JERRY_ASSERT( lex_env_p != NULL && lex_env_p->m_IsLexicalEnvironment );
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JERRY_ASSERT( lex_env_p != NULL && lex_env_p->IsLexicalEnvironment );
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JERRY_ASSERT( name_p != NULL );
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JERRY_ASSERT( ecma_IsCompletionValueNormalTrue( ecma_OpHasBinding( lex_env_p, name_p)) );
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switch ( (ecma_LexicalEnvironmentType_t) lex_env_p->u.m_LexicalEnvironment.m_Type )
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switch ( (ecma_LexicalEnvironmentType_t) lex_env_p->u.LexicalEnvironment.Type )
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{
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case ECMA_LEXICAL_ENVIRONMENT_DECLARATIVE:
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{
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ecma_Property_t *property_p = ecma_GetNamedDataProperty( lex_env_p, name_p);
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if ( property_p->u.m_NamedDataProperty.m_Writable == ECMA_PROPERTY_WRITABLE )
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if ( property_p->u.NamedDataProperty.Writable == ECMA_PROPERTY_WRITABLE )
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{
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ecma_FreeValue( property_p->u.m_NamedDataProperty.m_Value);
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property_p->u.m_NamedDataProperty.m_Value = ecma_CopyValue( value);
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ecma_FreeValue( property_p->u.NamedDataProperty.Value);
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property_p->u.NamedDataProperty.Value = ecma_CopyValue( value);
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} else if ( is_strict )
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{
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return ecma_MakeThrowValue( ecma_NewStandardError( ECMA_ERROR_TYPE));
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@@ -171,27 +171,27 @@ ecma_OpGetBindingValue(ecma_Object_t *lex_env_p, /**< lexical environment */
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ecma_Char_t *name_p, /**< argument N */
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bool is_strict) /**< argument S */
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{
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JERRY_ASSERT( lex_env_p != NULL && lex_env_p->m_IsLexicalEnvironment );
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JERRY_ASSERT( lex_env_p != NULL && lex_env_p->IsLexicalEnvironment );
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JERRY_ASSERT( name_p != NULL );
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JERRY_ASSERT( ecma_IsCompletionValueNormalTrue( ecma_OpHasBinding( lex_env_p, name_p)) );
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switch ( (ecma_LexicalEnvironmentType_t) lex_env_p->u.m_LexicalEnvironment.m_Type )
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switch ( (ecma_LexicalEnvironmentType_t) lex_env_p->u.LexicalEnvironment.Type )
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{
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case ECMA_LEXICAL_ENVIRONMENT_DECLARATIVE:
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{
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ecma_Property_t *property_p = ecma_GetNamedDataProperty( lex_env_p, name_p);
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ecma_Value_t prop_value = property_p->u.m_NamedDataProperty.m_Value;
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ecma_Value_t prop_value = property_p->u.NamedDataProperty.Value;
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/* is the binding mutable? */
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if ( property_p->u.m_NamedDataProperty.m_Writable == ECMA_PROPERTY_WRITABLE )
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if ( property_p->u.NamedDataProperty.Writable == ECMA_PROPERTY_WRITABLE )
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{
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return ecma_MakeCompletionValue( ECMA_COMPLETION_TYPE_NORMAL,
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ecma_CopyValue( prop_value),
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ECMA_TARGET_ID_RESERVED);
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} else if ( prop_value.m_ValueType == ECMA_TYPE_SIMPLE
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&& prop_value.m_Value == ECMA_SIMPLE_VALUE_EMPTY )
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} else if ( prop_value.ValueType == ECMA_TYPE_SIMPLE
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&& prop_value.Value == ECMA_SIMPLE_VALUE_EMPTY )
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{
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/* unitialized immutable binding */
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if ( is_strict )
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@@ -229,10 +229,10 @@ ecma_CompletionValue_t
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ecma_OpDeleteBinding(ecma_Object_t *lex_env_p, /**< lexical environment */
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ecma_Char_t *name_p) /**< argument N */
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{
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JERRY_ASSERT( lex_env_p != NULL && lex_env_p->m_IsLexicalEnvironment );
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JERRY_ASSERT( lex_env_p != NULL && lex_env_p->IsLexicalEnvironment );
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JERRY_ASSERT( name_p != NULL );
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switch ( (ecma_LexicalEnvironmentType_t) lex_env_p->u.m_LexicalEnvironment.m_Type )
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switch ( (ecma_LexicalEnvironmentType_t) lex_env_p->u.LexicalEnvironment.Type )
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{
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case ECMA_LEXICAL_ENVIRONMENT_DECLARATIVE:
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{
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@@ -244,9 +244,9 @@ ecma_OpDeleteBinding(ecma_Object_t *lex_env_p, /**< lexical environment */
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ret_val = ECMA_SIMPLE_VALUE_TRUE;
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} else
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{
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JERRY_ASSERT( prop_p->m_Type == ECMA_PROPERTY_NAMEDDATA );
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JERRY_ASSERT( prop_p->Type == ECMA_PROPERTY_NAMEDDATA );
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if ( prop_p->u.m_NamedDataProperty.m_Configurable == ECMA_PROPERTY_NOT_CONFIGURABLE )
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if ( prop_p->u.NamedDataProperty.Configurable == ECMA_PROPERTY_NOT_CONFIGURABLE )
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{
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ret_val = ECMA_SIMPLE_VALUE_FALSE;
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} else
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@@ -281,9 +281,9 @@ ecma_OpDeleteBinding(ecma_Object_t *lex_env_p, /**< lexical environment */
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ecma_CompletionValue_t
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ecma_OpImplicitThisValue( ecma_Object_t *lex_env_p) /**< lexical environment */
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{
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JERRY_ASSERT( lex_env_p != NULL && lex_env_p->m_IsLexicalEnvironment );
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JERRY_ASSERT( lex_env_p != NULL && lex_env_p->IsLexicalEnvironment );
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switch ( (ecma_LexicalEnvironmentType_t) lex_env_p->u.m_LexicalEnvironment.m_Type )
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switch ( (ecma_LexicalEnvironmentType_t) lex_env_p->u.LexicalEnvironment.Type )
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{
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case ECMA_LEXICAL_ENVIRONMENT_DECLARATIVE:
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{
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@@ -309,9 +309,9 @@ void
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ecma_OpCreateImmutableBinding(ecma_Object_t *lex_env_p, /**< lexical environment */
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ecma_Char_t *name_p) /**< argument N */
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{
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JERRY_ASSERT( lex_env_p != NULL && lex_env_p->m_IsLexicalEnvironment );
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JERRY_ASSERT( lex_env_p != NULL && lex_env_p->IsLexicalEnvironment );
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switch ( (ecma_LexicalEnvironmentType_t) lex_env_p->u.m_LexicalEnvironment.m_Type )
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switch ( (ecma_LexicalEnvironmentType_t) lex_env_p->u.LexicalEnvironment.Type )
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{
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case ECMA_LEXICAL_ENVIRONMENT_DECLARATIVE:
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{
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@@ -327,9 +327,9 @@ ecma_OpCreateImmutableBinding(ecma_Object_t *lex_env_p, /**< lexical environment
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ECMA_PROPERTY_NOT_ENUMERABLE,
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ECMA_PROPERTY_NOT_CONFIGURABLE);
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JERRY_ASSERT( prop_p->u.m_NamedDataProperty.m_Value.m_ValueType == ECMA_TYPE_SIMPLE );
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JERRY_ASSERT( prop_p->u.NamedDataProperty.Value.ValueType == ECMA_TYPE_SIMPLE );
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prop_p->u.m_NamedDataProperty.m_Value.m_Value = ECMA_SIMPLE_VALUE_EMPTY;
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prop_p->u.NamedDataProperty.Value.Value = ECMA_SIMPLE_VALUE_EMPTY;
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}
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case ECMA_LEXICAL_ENVIRONMENT_OBJECTBOUND:
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{
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@@ -350,9 +350,9 @@ ecma_OpInitializeImmutableBinding(ecma_Object_t *lex_env_p, /**< lexical environ
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ecma_Char_t *name_p, /**< argument N */
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ecma_Value_t value) /**< argument V */
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{
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JERRY_ASSERT( lex_env_p != NULL && lex_env_p->m_IsLexicalEnvironment );
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JERRY_ASSERT( lex_env_p != NULL && lex_env_p->IsLexicalEnvironment );
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switch ( (ecma_LexicalEnvironmentType_t) lex_env_p->u.m_LexicalEnvironment.m_Type )
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switch ( (ecma_LexicalEnvironmentType_t) lex_env_p->u.LexicalEnvironment.Type )
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{
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case ECMA_LEXICAL_ENVIRONMENT_DECLARATIVE:
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{
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@@ -361,11 +361,11 @@ ecma_OpInitializeImmutableBinding(ecma_Object_t *lex_env_p, /**< lexical environ
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ecma_Property_t *prop_p = ecma_GetNamedDataProperty( lex_env_p, name_p);
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/* The binding must be unitialized immutable binding */
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JERRY_ASSERT( prop_p->u.m_NamedDataProperty.m_Writable == ECMA_PROPERTY_NOT_WRITABLE
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&& prop_p->u.m_NamedDataProperty.m_Value.m_ValueType == ECMA_TYPE_SIMPLE
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&& prop_p->u.m_NamedDataProperty.m_Value.m_Value == ECMA_SIMPLE_VALUE_EMPTY );
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JERRY_ASSERT( prop_p->u.NamedDataProperty.Writable == ECMA_PROPERTY_NOT_WRITABLE
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&& prop_p->u.NamedDataProperty.Value.ValueType == ECMA_TYPE_SIMPLE
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&& prop_p->u.NamedDataProperty.Value.Value == ECMA_SIMPLE_VALUE_EMPTY );
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prop_p->u.m_NamedDataProperty.m_Value = ecma_CopyValue( value);
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prop_p->u.NamedDataProperty.Value = ecma_CopyValue( value);
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}
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case ECMA_LEXICAL_ENVIRONMENT_OBJECTBOUND:
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{
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