473 lines
19 KiB
C++
473 lines
19 KiB
C++
/*+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
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Copyright (c) 1989-1999 Microsoft Corporation
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Module Name:
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semantic.hxx
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Abstract:
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types for semantic analysis
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Notes:
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Author:
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GregJen Sep-24-1993 Created.
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Notes:
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----------------------------------------------------------------------------*/
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#ifndef __SEMANTIC_HXX__
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#define __SEMANTIC_HXX__
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#pragma warning ( disable : 4710 )
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/****************************************************************************
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* include files
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***************************************************************************/
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#include "listhndl.hxx"
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#include "midlnode.hxx"
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#include "attrlist.hxx"
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#include "nodeskl.hxx"
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#include "fldattr.hxx"
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#include "walkctxt.hxx"
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#include "gramutil.hxx"
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#include "cmdana.hxx"
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/****************************************************************************
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* local data
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***************************************************************************/
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/****************************************************************************
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* externs
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***************************************************************************/
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/****************************************************************************
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* definitions
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***************************************************************************/
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/*
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* here are flag bits passed down from parents to give info on the
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* current path down the typegraph. These are dynamic information only,
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* and are NOT to be stored with the node.
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*
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* Although a few of these bits are mutually exclusive, most may be used
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* in combination.
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*/
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#define IN_INTERFACE 0x0000000000000001 // in the base interface
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#define IN_PARAM_LIST 0x0000000000000002 // a descendant of a parameter
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#define IN_FUNCTION_RESULT 0x0000000000000004 // used as (part of) a return type
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#define IN_STRUCT 0x0000000000000008 // used in a struct
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#define IN_UNION 0x0000000000000010 // used in a union
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#define IN_ARRAY 0x0000000000000020 // used in an array
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#define IN_POINTER 0x0000000000000040 // below a pointer
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#define IN_RPC 0x0000000000000080 // in an RPC call
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#define UNDER_IN_PARAM 0x0000000000000100 // in an IN parameter
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#define UNDER_OUT_PARAM 0x0000000000000200 // in an OUT parameter
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#define BINDING_SEEN 0x0000000000000400 // binding handle already seen
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#define IN_TRANSMIT_AS 0x0000000000000800 // the transmitted type of transmit_as
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#define IN_REPRESENT_AS 0x0000000000001000 // the "transmitted" type of represent_as
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#define IN_USER_MARSHAL 0x0000000000002000 // transmitted type of
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#define IN_HANDLE 0x0000000000004000 // under generic or context hdl
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#define IN_NE_UNION 0x0000000000008000 // inside an non-encap union
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#define IN_INTERPRET 0x0000000000010000 // in an /Oi proc
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#define IN_NON_REF_PTR 0x0000000000020000 // under a series of unique/full ptrs
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#define UNDER_TOPLEVEL 0x0000000000040000 // top-level under param
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#define UNDER_TOPLVL_PTR 0x0000000000080000 // top-level under pointer param
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#define IN_BASE_CLASS 0x0000000000100000 // checking class derivation tree
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#define IN_PRESENTED_TYPE 0x0000000000200000 // the presented type of xmit/rep_as
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#define IN_ROOT_CLASS 0x0000000000400000 // a method/definition in the root class
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#define IN_ENCODE_INTF 0x0000000000800000 // inside an encode/decode only intf
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#define IN_RECURSIVE_DEF 0x0000000001000000 // inside of a recursive definition
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#define IN_OBJECT_INTF 0x0000000002000000 // in an object interface
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#define IN_LOCAL_PROC 0x0000000004000000 // in a [local] proc
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#define IN_INTERFACE_PTR 0x0000000008000000 // in the definition of an interface pointer
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#define IN_MODULE 0x0000000010000000 // in a module
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#define IN_COCLASS 0x0000000020000000 // in a coclass
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#define IN_LIBRARY 0x0000000040000000 // in a library
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#define IN_DISPINTERFACE 0x0000000080000000 // in a dispinterface
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#define HAS_OLEAUTOMATION 0x0000000100000000 // has [oleautomation] attr
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#define HAS_ASYNCHANDLE 0x0000000200000000 // has [async] attribute
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#define HAS_AUTO_HANDLE 0x0000000400000000 // has auto_handle
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#define HAS_EXPLICIT_HANDLE 0x0000000800000000 // has explicit_handle
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#define HAS_IMPLICIT_HANDLE 0x0000001000000000 // has implicit_handle
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#define IN_IADVISESINK 0x0000002000000000 // processing the children of IAdviseSink(*)
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#define HAS_ASYNC_UUID 0x0000004000000000 // interface has [async_uuid]
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#define HAS_MESSAGE 0x0000008000000000 // interface has [message]
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#define UNDER_HIDDEN_STATUS 0x0000010000000000 // hidden status param
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#define UNDER_PARTIAL_IGNORE_PARAM 0x0000020000000000 // Up to first ptr under partial_ignore
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typedef __int64 ANCESTOR_FLAGS; // above enum goes into here
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/*
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* Here are flag bits returned UP from children to give info on the current
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* path down the typegraph. Again, these are dynamic information.
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*/
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#define HAS_STRING 0x0000000000000001 // has [string] attr
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#define HAS_IN 0x0000000000000002 // has [IN] attr
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#define HAS_OUT 0x0000000000000004 // has [OUT] attr
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#define HAS_HANDLE 0x0000000000000008 // is a handle
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#define HAS_POINTER 0x0000000000000010 // has a pointer below
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#define HAS_INCOMPLETE_TYPE 0x0000000000000020 // has incomplete type spec below
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#define HAS_VAR_ARRAY 0x0000000000000040 // has varying array (incl string)
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#define HAS_CONF_ARRAY 0x0000000000000080 // has conf array
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#define HAS_CONF_VAR_ARRAY 0x0000000000000100 // has conf_var array
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#define DERIVES_FROM_VOID 0x0000000000000200 // derives from void
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#define HAS_UNSAT_REP_AS 0x0000000000000400 // has unsatisfied rep_as
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#define HAS_CONTEXT_HANDLE 0x0000000000000800 // has context handle below
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#define HAS_CONF_PTR 0x0000000000001000 // has conformant pointer
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#define HAS_VAR_PTR 0x0000000000002000 // has varying pointer
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#define HAS_CONF_VAR_PTR 0x0000000000004000 // has conformant varying pointer
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#define HAS_TRANSMIT_AS 0x0000000000008000 // has transmit_as below
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#define HAS_REPRESENT_AS 0x0000000000010000 // has represent_as below
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#define HAS_E_STAT_T 0x0000000000020000 // has error_status_t below
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#define HAS_UNION 0x0000000000040000 // has union below
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#define HAS_ARRAY 0x0000000000080000 // has array below
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#define HAS_INTERFACE_PTR 0x0000000000100000 // has an interface ptr below
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#define HAS_DIRECT_CONF_OR_VAR 0x0000000000200000 // has direct conformance or variance
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#define HAS_RECURSIVE_DEF 0x0000000000400000 // is defined recursively
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#define HAS_ENUM 0x0000000000800000 // has an enum directly or embedded
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#define HAS_FUNC 0x0000000001000000 // has a function below
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#define HAS_FULL_PTR 0x0000000002000000 // has full pointers anywhere
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#define HAS_TOO_BIG_HDL 0x0000000004000000 // is /Oi but handle is too big
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#define HAS_STRUCT 0x0000000008000000 // has struct
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#define HAS_MULTIDIM_SIZING 0x0000000010000000 // has multi-dimensions
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#define HAS_ARRAY_OF_REF 0x0000000020000000 // has array of ref pointers
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#define HAS_HRESULT 0x0000000040000000 // has HRESULT
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#define HAS_PIPE 0x0000000080000000 // has a PIPE
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#define HAS_DEFAULT_VALUE 0x0000000100000000 // has [defaultvalue] attribute
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#define HAS_SERVER_CORRELATION 0x0000000200000000 // server correlation
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#define HAS_CLIENT_CORRELATION 0x0000000400000000 // client correlation
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#define HAS_MULTIDIM_VECTOR 0x0000000800000000 // has multi dim array or sized ptrs
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#define HAS_SIZED_ARRAY 0x0000001000000000 // not a fixed array
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#define HAS_SIZED_PTR 0x0000002000000000 //
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#define HAS_IN_CSTYPE 0x0000004000000000 // has in international chars
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#define HAS_OUT_CSTYPE 0x0000008000000000 // has out international chars
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#define HAS_DRTAG 0x0000010000000000 // some param has [cs_drtag]
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#define HAS_RTAG 0x0000020000000000 // some param has [cs_rtag]
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#define HAS_STAG 0x0000040000000000 // some param has [cs_stag]
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#define HAS_PARTIAL_IGNORE 0x0000080000000000 // some param has [partial_ignore]
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#define HAS_FORCEALLOCATE 0x0000100000000000 // some param has [force_allocate]
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#define HAS_ARRAYOFPOINTERS 0x0000200000000000 // has an array of pointers
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typedef __int64 DESCENDANT_FLAGS; // above defines goes into here
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/*
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* Here is the context information passed down from parent to child.
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* These will be allocated on the stack during the traversal
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*/
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class node_interface;
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class type_node_list;
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class ATTRLIST;
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class SEM_ANALYSIS_CTXT: public WALK_CTXT
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{
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private:
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unsigned long ulCorrelations;
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public:
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struct _current_ctxt {
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// down stuff
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ANCESTOR_FLAGS AncestorBits; // where am I? stuff
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// up stuff
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DESCENDANT_FLAGS DescendantBits;
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} CurrentCtxt;
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// constructor and destructor
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SEM_ANALYSIS_CTXT(node_skl * Me)
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: WALK_CTXT( Me )
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{
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GetAncestorBits() = 0;
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GetDescendantBits() = 0;
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ulCorrelations = 0;
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}
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SEM_ANALYSIS_CTXT(node_skl * Me,
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SEM_ANALYSIS_CTXT * pParentCtxt )
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: WALK_CTXT( Me, pParentCtxt )
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{
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// clone information from parent node
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CurrentCtxt = pParentCtxt->CurrentCtxt;
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// get fresh information from our children
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GetDescendantBits() = 0;
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// remove any inapplicable attributes
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CheckAttributes();
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ulCorrelations = 0;
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}
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SEM_ANALYSIS_CTXT(SEM_ANALYSIS_CTXT * pParentCtxt )
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: WALK_CTXT( pParentCtxt )
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{
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// clone information from parent node
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CurrentCtxt = pParentCtxt->CurrentCtxt;
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// get fresh information from our children
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GetDescendantBits() = 0;
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ulCorrelations = 0;
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}
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ANCESTOR_FLAGS& GetAncestorBits()
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{
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return CurrentCtxt.AncestorBits;
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}
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ANCESTOR_FLAGS& SetAncestorBits( ANCESTOR_FLAGS f )
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{
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CurrentCtxt.AncestorBits |= f;
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return CurrentCtxt.AncestorBits;
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}
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ANCESTOR_FLAGS& ClearAncestorBits( ANCESTOR_FLAGS f )
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{
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CurrentCtxt.AncestorBits &= ~f;
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return CurrentCtxt.AncestorBits;
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}
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BOOL AnyAncestorBits( ANCESTOR_FLAGS f )
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{
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return ((CurrentCtxt.AncestorBits & f) != 0);
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}
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BOOL AllAncestorBits( ANCESTOR_FLAGS f )
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{
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return ((CurrentCtxt.AncestorBits & f) == f);
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}
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DESCENDANT_FLAGS& GetDescendantBits()
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{
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return CurrentCtxt.DescendantBits;
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}
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DESCENDANT_FLAGS& SetDescendantBits( DESCENDANT_FLAGS f )
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{
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CurrentCtxt.DescendantBits |= f;
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return CurrentCtxt.DescendantBits;
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}
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DESCENDANT_FLAGS& ClearDescendantBits( DESCENDANT_FLAGS f )
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{
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CurrentCtxt.DescendantBits &= ~f;
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return CurrentCtxt.DescendantBits;
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}
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DESCENDANT_FLAGS& ClearAllDescendantBits( )
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{
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CurrentCtxt.DescendantBits = 0;
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return CurrentCtxt.DescendantBits;
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}
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BOOL AnyDescendantBits( DESCENDANT_FLAGS f )
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{
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return ( ( CurrentCtxt.DescendantBits & f ) != 0 );
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}
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BOOL AllDescendantBits( DESCENDANT_FLAGS f )
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{
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return ((CurrentCtxt.DescendantBits & f) == f);
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}
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void ReturnValues( SEM_ANALYSIS_CTXT & ChildCtxt )
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{
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// pass up the return context
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GetDescendantBits() |= ChildCtxt.GetDescendantBits();
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ulCorrelations += ChildCtxt.GetCorrelationCount();
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}
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unsigned long GetCorrelationCount( void )
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{
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return ulCorrelations;
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}
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void IncCorrelationCount( unsigned long ulInc = 1 )
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{
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ulCorrelations += ulInc;
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}
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void ResetCorrelationCount()
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{
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ulCorrelations = 0;
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}
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void ResetDownValues( SEM_ANALYSIS_CTXT & ParentCtxt )
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{
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// reset the down values from the parent
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// (semantically different, but really the same code )
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ReturnValues( ParentCtxt );
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}
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void CheckAttributes();
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void RejectAttributes();
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}; // end of class SEM_ANALYSIS_CTXT
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inline void
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RpcSemError( node_skl * pNode,
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SEM_ANALYSIS_CTXT & Ctxt,
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STATUS_T ErrNum,
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char * pExtra )
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{
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if ( Ctxt.AnyAncestorBits( IN_RPC ) &&
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!Ctxt.AnyAncestorBits( IN_LOCAL_PROC ) )
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SemError( pNode, Ctxt, ErrNum, pExtra );
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}
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inline void
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TypeSemError( node_skl * pNode,
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SEM_ANALYSIS_CTXT & Ctxt,
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STATUS_T ErrNum,
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char * pExtra )
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{
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if ( !Ctxt.AnyAncestorBits( IN_LOCAL_PROC ) )
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SemError( pNode, Ctxt, ErrNum, pExtra );
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}
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// prototype for semantic advice routines
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inline void
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SemAdvice( node_skl * pNode,
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WALK_CTXT & Ctxt,
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STATUS_T ErrVal,
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char * pSuffix )
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{
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if ( pCommand->IsMintRun() )
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SemError( pNode, Ctxt, ErrVal, pSuffix );
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}
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class acf_attr;
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extern void
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AcfError( acf_attr*, node_skl *, WALK_CTXT &, STATUS_T, char * );
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/////////////////////////////////////////////
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//
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// expression analysis flags (passed up)
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enum _EXPR_UP_FLAGS
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{
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EX_NONE = 0x0000,
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EX_VALUE_INVALID = 0x0001, // value is NOT valid
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EX_UNSAT_FWD = 0x0002, // there is an unsatisfied fwd
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EX_NON_NUMERIC = 0x0004, // expr not entirely numerics
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// (can not be constant folded)
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EX_OUT_ONLY_PARAM = 0x0008, // expression includes an out-only param
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EX_PTR_FULL_UNIQUE = 0x0010, // has ptr deref of full or unique ptr
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EX_HYPER_IN_EXPR = 0x0020, // expr has a hyper item in it
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};
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typedef unsigned short EXPR_UP_FLAGS;
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////////////////////////////////////////////
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// expression context block
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class EXPR_CTXT;
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class EXPR_CTXT
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{
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private:
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// passed down
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EXPR_CTXT * pParent;
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SEM_ANALYSIS_CTXT * pSemCtxt;
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// passed up
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EXPR_VALUE CurValue;
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EXPR_UP_FLAGS Flags;
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public:
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// type info
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node_skl * pType;
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struct _type_ana TypeInfo;
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BOOL fIntegral; // type is an integral type (above are valid)
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EXPR_CTXT( EXPR_CTXT * pMy ) : pType( 0 ), fIntegral( FALSE )
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{
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TypeInfo.TypeSize =
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TypeInfo.BaseType =
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TypeInfo.TypeSign =
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TypeInfo.TypeAttrib = 0;
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pParent = pMy;
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pSemCtxt = pMy->pSemCtxt;
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CurValue = 0;
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Flags = EX_NONE;
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}
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EXPR_CTXT( SEM_ANALYSIS_CTXT * pSCtxt ) : pType( 0 ), fIntegral( FALSE )
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{
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TypeInfo.TypeSize =
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TypeInfo.BaseType =
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TypeInfo.TypeSign =
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TypeInfo.TypeAttrib = 0;
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pParent = NULL;
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pSemCtxt = pSCtxt;
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CurValue = 0;
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Flags = EX_NONE;
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}
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// automatically pass up the flags
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~EXPR_CTXT()
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{
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if ( pParent )
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pParent->Flags |= Flags;
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}
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EXPR_VALUE& Value()
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{
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return CurValue;
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}
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EXPR_UP_FLAGS& MergeUpFlags( EXPR_CTXT * pC )
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{
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Flags |= pC->Flags;
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return Flags;
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}
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EXPR_UP_FLAGS& SetUpFlags( EXPR_UP_FLAGS f )
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{
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Flags |= f;
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return Flags;
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}
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EXPR_UP_FLAGS& ClearUpFlags( EXPR_UP_FLAGS f )
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{
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Flags &= ~f;
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return Flags;
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}
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BOOL AnyUpFlags( EXPR_UP_FLAGS f )
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{
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return (Flags & f);
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}
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BOOL AllUpFlags( EXPR_UP_FLAGS f )
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{
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return ((Flags & f) == f);
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}
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node_skl* GetNode()
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{
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return pSemCtxt->GetParent();
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}
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SEM_ANALYSIS_CTXT * GetCtxt()
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{
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return pSemCtxt;
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}
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};
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#endif // __SEMANTIC_HXX__
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