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|
/*
* tclCompile.h --
*
* Copyright (c) 1996-1998 Sun Microsystems, Inc.
* Copyright (c) 1998-2000 by Scriptics Corporation.
* Copyright (c) 2001 by Kevin B. Kenny. All rights reserved.
* Copyright (c) 2007 Daniel A. Steffen <das@users.sourceforge.net>
*
* See the file "license.terms" for information on usage and redistribution of
* this file, and for a DISCLAIMER OF ALL WARRANTIES.
*/
#ifndef _TCLCOMPILATION
#define _TCLCOMPILATION 1
#include "tclInt.h"
struct ByteCode; /* Forward declaration. */
/*
*------------------------------------------------------------------------
* Variables related to compilation. These are used in tclCompile.c,
* tclExecute.c, tclBasic.c, and their clients.
*------------------------------------------------------------------------
*/
#ifdef TCL_COMPILE_DEBUG
/*
* Variable that controls whether compilation tracing is enabled and, if so,
* what level of tracing is desired:
* 0: no compilation tracing
* 1: summarize compilation of top level cmds and proc bodies
* 2: display all instructions of each ByteCode compiled
* This variable is linked to the Tcl variable "tcl_traceCompile".
*/
MODULE_SCOPE int tclTraceCompile;
/*
* Variable that controls whether execution tracing is enabled and, if so,
* what level of tracing is desired:
* 0: no execution tracing
* 1: trace invocations of Tcl procs only
* 2: trace invocations of all (not compiled away) commands
* 3: display each instruction executed
* This variable is linked to the Tcl variable "tcl_traceExec".
*/
MODULE_SCOPE int tclTraceExec;
#endif
/*
*------------------------------------------------------------------------
* Data structures related to compilation.
*------------------------------------------------------------------------
*/
/*
* The structure used to implement Tcl "exceptions" (exceptional returns): for
* example, those generated in loops by the break and continue commands, and
* those generated by scripts and caught by the catch command. This
* ExceptionRange structure describes a range of code (e.g., a loop body), the
* kind of exceptions (e.g., a break or continue) that might occur, and the PC
* offsets to jump to if a matching exception does occur. Exception ranges can
* nest so this structure includes a nesting level that is used at runtime to
* find the closest exception range surrounding a PC. For example, when a
* break command is executed, the ExceptionRange structure for the most deeply
* nested loop, if any, is found and used. These structures are also generated
* for the "next" subcommands of for loops since a break there terminates the
* for command. This means a for command actually generates two LoopInfo
* structures.
*/
typedef enum {
LOOP_EXCEPTION_RANGE, /* Exception's range is part of a loop. Break
* and continue "exceptions" cause jumps to
* appropriate PC offsets. */
CATCH_EXCEPTION_RANGE /* Exception's range is controlled by a catch
* command. Errors in the range cause a jump
* to a catch PC offset. */
} ExceptionRangeType;
typedef struct {
ExceptionRangeType type; /* The kind of ExceptionRange. */
int nestingLevel; /* Static depth of the exception range. Used
* to find the most deeply-nested range
* surrounding a PC at runtime. */
int codeOffset; /* Offset of the first instruction byte of the
* code range. */
int numCodeBytes; /* Number of bytes in the code range. */
int breakOffset; /* If LOOP_EXCEPTION_RANGE, the target PC
* offset for a break command in the range. */
int continueOffset; /* If LOOP_EXCEPTION_RANGE and not -1, the
* target PC offset for a continue command in
* the code range. Otherwise, ignore this
* range when processing a continue
* command. */
int catchOffset; /* If a CATCH_EXCEPTION_RANGE, the target PC
* offset for any "exception" in range. */
} ExceptionRange;
/*
* Structure used to map between instruction pc and source locations. It
* defines for each compiled Tcl command its code's starting offset and its
* source's starting offset and length. Note that the code offset increases
* monotonically: that is, the table is sorted in code offset order. The
* source offset is not monotonic.
*/
typedef struct {
int codeOffset; /* Offset of first byte of command code. */
int numCodeBytes; /* Number of bytes for command's code. */
int srcOffset; /* Offset of first char of the command. */
int numSrcBytes; /* Number of command source chars. */
} CmdLocation;
/*
* TIP #280
* Structure to record additional location information for byte code. This
* information is internal and not saved. i.e. tbcload'ed code will not have
* this information. It records the lines for all words of all commands found
* in the byte code. The association with a ByteCode structure BC is done
* through the 'lineBCPtr' HashTable in Interp, keyed by the address of BC.
* Also recorded is information coming from the context, i.e. type of the
* frame and associated information, like the path of a sourced file.
*/
typedef struct {
int srcOffset; /* Command location to find the entry. */
int nline; /* Number of words in the command */
int *line; /* Line information for all words in the
* command. */
int **next; /* Transient information used by the compiler
* for tracking of hidden continuation
* lines. */
} ECL;
typedef struct {
int type; /* Context type. */
int start; /* Starting line for compiled script. Needed
* for the extended recompile check in
* tclCompileObj. */
Tcl_Obj *path; /* Path of the sourced file the command is
* in. */
ECL *loc; /* Command word locations (lines). */
int nloc; /* Number of allocated entries in 'loc'. */
int nuloc; /* Number of used entries in 'loc'. */
Tcl_HashTable litInfo; /* Indexed by bytecode 'PC', to have the
* information accessible per command and
* argument, not per whole bytecode. Value is
* index of command in 'loc', giving us the
* literals to associate with line information
* as command argument, see
* TclArgumentBCEnter() */
} ExtCmdLoc;
/*
* CompileProcs need the ability to record information during compilation that
* can be used by bytecode instructions during execution. The AuxData
* structure provides this "auxiliary data" mechanism. An arbitrary number of
* these structures can be stored in the ByteCode record (during compilation
* they are stored in a CompileEnv structure). Each AuxData record holds one
* word of client-specified data (often a pointer) and is given an index that
* instructions can later use to look up the structure and its data.
*
* The following definitions declare the types of procedures that are called
* to duplicate or free this auxiliary data when the containing ByteCode
* objects are duplicated and freed. Pointers to these procedures are kept in
* the AuxData structure.
*/
typedef ClientData (AuxDataDupProc) (ClientData clientData);
typedef void (AuxDataFreeProc) (ClientData clientData);
typedef void (AuxDataPrintProc)(ClientData clientData,
Tcl_Obj *appendObj, struct ByteCode *codePtr,
unsigned int pcOffset);
/*
* We define a separate AuxDataType struct to hold type-related information
* for the AuxData structure. This separation makes it possible for clients
* outside of the TCL core to manipulate (in a limited fashion!) AuxData; for
* example, it makes it possible to pickle and unpickle AuxData structs.
*/
typedef struct AuxDataType {
const char *name; /* The name of the type. Types can be
* registered and found by name */
AuxDataDupProc *dupProc; /* Callback procedure to invoke when the aux
* data is duplicated (e.g., when the ByteCode
* structure containing the aux data is
* duplicated). NULL means just copy the
* source clientData bits; no proc need be
* called. */
AuxDataFreeProc *freeProc; /* Callback procedure to invoke when the aux
* data is freed. NULL means no proc need be
* called. */
AuxDataPrintProc *printProc;/* Callback function to invoke when printing
* the aux data as part of debugging. NULL
* means that the data can't be printed. */
} AuxDataType;
/*
* The definition of the AuxData structure that holds information created
* during compilation by CompileProcs and used by instructions during
* execution.
*/
typedef struct AuxData {
const AuxDataType *type; /* Pointer to the AuxData type associated with
* this ClientData. */
ClientData clientData; /* The compilation data itself. */
} AuxData;
/*
* Structure defining the compilation environment. After compilation, fields
* describing bytecode instructions are copied out into the more compact
* ByteCode structure defined below.
*/
#define COMPILEENV_INIT_CODE_BYTES 250
#define COMPILEENV_INIT_NUM_OBJECTS 60
#define COMPILEENV_INIT_EXCEPT_RANGES 5
#define COMPILEENV_INIT_CMD_MAP_SIZE 40
#define COMPILEENV_INIT_AUX_DATA_SIZE 5
typedef struct CompileEnv {
Interp *iPtr; /* Interpreter containing the code being
* compiled. Commands and their compile procs
* are specific to an interpreter so the code
* emitted will depend on the interpreter. */
const char *source; /* The source string being compiled by
* SetByteCodeFromAny. This pointer is not
* owned by the CompileEnv and must not be
* freed or changed by it. */
int numSrcBytes; /* Number of bytes in source. */
Proc *procPtr; /* If a procedure is being compiled, a pointer
* to its Proc structure; otherwise NULL. Used
* to compile local variables. Set from
* information provided by ObjInterpProc in
* tclProc.c. */
int numCommands; /* Number of commands compiled. */
int exceptDepth; /* Current exception range nesting level; -1
* if not in any range currently. */
int maxExceptDepth; /* Max nesting level of exception ranges; -1
* if no ranges have been compiled. */
int maxStackDepth; /* Maximum number of stack elements needed to
* execute the code. Set by compilation
* procedures before returning. */
int currStackDepth; /* Current stack depth. */
LiteralTable localLitTable; /* Contains LiteralEntry's describing all Tcl
* objects referenced by this compiled code.
* Indexed by the string representations of
* the literals. Used to avoid creating
* duplicate objects. */
unsigned char *codeStart; /* Points to the first byte of the code. */
unsigned char *codeNext; /* Points to next code array byte to use. */
unsigned char *codeEnd; /* Points just after the last allocated code
* array byte. */
int mallocedCodeArray; /* Set 1 if code array was expanded and
* codeStart points into the heap.*/
LiteralEntry *literalArrayPtr;
/* Points to start of LiteralEntry array. */
int literalArrayNext; /* Index of next free object array entry. */
int literalArrayEnd; /* Index just after last obj array entry. */
int mallocedLiteralArray; /* 1 if object array was expanded and objArray
* points into the heap, else 0. */
ExceptionRange *exceptArrayPtr;
/* Points to start of the ExceptionRange
* array. */
int exceptArrayNext; /* Next free ExceptionRange array index.
* exceptArrayNext is the number of ranges and
* (exceptArrayNext-1) is the index of the
* current range's array entry. */
int exceptArrayEnd; /* Index after the last ExceptionRange array
* entry. */
int mallocedExceptArray; /* 1 if ExceptionRange array was expanded and
* exceptArrayPtr points in heap, else 0. */
CmdLocation *cmdMapPtr; /* Points to start of CmdLocation array.
* numCommands is the index of the next entry
* to use; (numCommands-1) is the entry index
* for the last command. */
int cmdMapEnd; /* Index after last CmdLocation entry. */
int mallocedCmdMap; /* 1 if command map array was expanded and
* cmdMapPtr points in the heap, else 0. */
AuxData *auxDataArrayPtr; /* Points to auxiliary data array start. */
int auxDataArrayNext; /* Next free compile aux data array index.
* auxDataArrayNext is the number of aux data
* items and (auxDataArrayNext-1) is index of
* current aux data array entry. */
int auxDataArrayEnd; /* Index after last aux data array entry. */
int mallocedAuxDataArray; /* 1 if aux data array was expanded and
* auxDataArrayPtr points in heap else 0. */
unsigned char staticCodeSpace[COMPILEENV_INIT_CODE_BYTES];
/* Initial storage for code. */
LiteralEntry staticLiteralSpace[COMPILEENV_INIT_NUM_OBJECTS];
/* Initial storage of LiteralEntry array. */
ExceptionRange staticExceptArraySpace[COMPILEENV_INIT_EXCEPT_RANGES];
/* Initial ExceptionRange array storage. */
CmdLocation staticCmdMapSpace[COMPILEENV_INIT_CMD_MAP_SIZE];
/* Initial storage for cmd location map. */
AuxData staticAuxDataArraySpace[COMPILEENV_INIT_AUX_DATA_SIZE];
/* Initial storage for aux data array. */
/* TIP #280 */
ExtCmdLoc *extCmdMapPtr; /* Extended command location information for
* 'info frame'. */
int line; /* First line of the script, based on the
* invoking context, then the line of the
* command currently compiled. */
int atCmdStart; /* Flag to say whether an INST_START_CMD
* should be issued; they should never be
* issued repeatedly, as that is significantly
* inefficient. */
ContLineLoc *clLoc; /* If not NULL, the table holding the
* locations of the invisible continuation
* lines in the input script, to adjust the
* line counter. */
int *clNext; /* If not NULL, it refers to the next slot in
* clLoc to check for an invisible
* continuation line. */
} CompileEnv;
/*
* The structure defining the bytecode instructions resulting from compiling a
* Tcl script. Note that this structure is variable length: a single heap
* object is allocated to hold the ByteCode structure immediately followed by
* the code bytes, the literal object array, the ExceptionRange array, the
* CmdLocation map, and the compilation AuxData array.
*/
/*
* A PRECOMPILED bytecode struct is one that was generated from a compiled
* image rather than implicitly compiled from source
*/
#define TCL_BYTECODE_PRECOMPILED 0x0001
/*
* When a bytecode is compiled, interp or namespace resolvers have not been
* applied yet: this is indicated by the TCL_BYTECODE_RESOLVE_VARS flag.
*/
#define TCL_BYTECODE_RESOLVE_VARS 0x0002
#define TCL_BYTECODE_RECOMPILE 0x0004
typedef struct ByteCode {
TclHandle interpHandle; /* Handle for interpreter containing the
* compiled code. Commands and their compile
* procs are specific to an interpreter so the
* code emitted will depend on the
* interpreter. */
int compileEpoch; /* Value of iPtr->compileEpoch when this
* ByteCode was compiled. Used to invalidate
* code when, e.g., commands with compile
* procs are redefined. */
Namespace *nsPtr; /* Namespace context in which this code was
* compiled. If the code is executed if a
* different namespace, it must be
* recompiled. */
int nsEpoch; /* Value of nsPtr->resolverEpoch when this
* ByteCode was compiled. Used to invalidate
* code when new namespace resolution rules
* are put into effect. */
int refCount; /* Reference count: set 1 when created plus 1
* for each execution of the code currently
* active. This structure can be freed when
* refCount becomes zero. */
unsigned int flags; /* flags describing state for the codebyte.
* this variable holds ORed values from the
* TCL_BYTECODE_ masks defined above */
const char *source; /* The source string from which this ByteCode
* was compiled. Note that this pointer is not
* owned by the ByteCode and must not be freed
* or modified by it. */
Proc *procPtr; /* If the ByteCode was compiled from a
* procedure body, this is a pointer to its
* Proc structure; otherwise NULL. This
* pointer is also not owned by the ByteCode
* and must not be freed by it. */
size_t structureSize; /* Number of bytes in the ByteCode structure
* itself. Does not include heap space for
* literal Tcl objects or storage referenced
* by AuxData entries. */
int numCommands; /* Number of commands compiled. */
int numSrcBytes; /* Number of source bytes compiled. */
int numCodeBytes; /* Number of code bytes. */
int numLitObjects; /* Number of objects in literal array. */
int numExceptRanges; /* Number of ExceptionRange array elems. */
int numAuxDataItems; /* Number of AuxData items. */
int numCmdLocBytes; /* Number of bytes needed for encoded command
* location information. */
int maxExceptDepth; /* Maximum nesting level of ExceptionRanges;
* -1 if no ranges were compiled. */
int maxStackDepth; /* Maximum number of stack elements needed to
* execute the code. */
unsigned char *codeStart; /* Points to the first byte of the code. This
* is just after the final ByteCode member
* cmdMapPtr. */
Tcl_Obj **objArrayPtr; /* Points to the start of the literal object
* array. This is just after the last code
* byte. */
ExceptionRange *exceptArrayPtr;
/* Points to the start of the ExceptionRange
* array. This is just after the last object
* in the object array. */
AuxData *auxDataArrayPtr; /* Points to the start of the auxiliary data
* array. This is just after the last entry in
* the ExceptionRange array. */
unsigned char *codeDeltaStart;
/* Points to the first of a sequence of bytes
* that encode the change in the starting
* offset of each command's code. If -127 <=
* delta <= 127, it is encoded as 1 byte,
* otherwise 0xFF (128) appears and the delta
* is encoded by the next 4 bytes. Code deltas
* are always positive. This sequence is just
* after the last entry in the AuxData
* array. */
unsigned char *codeLengthStart;
/* Points to the first of a sequence of bytes
* that encode the length of each command's
* code. The encoding is the same as for code
* deltas. Code lengths are always positive.
* This sequence is just after the last entry
* in the code delta sequence. */
unsigned char *srcDeltaStart;
/* Points to the first of a sequence of bytes
* that encode the change in the starting
* offset of each command's source. The
* encoding is the same as for code deltas.
* Source deltas can be negative. This
* sequence is just after the last byte in the
* code length sequence. */
unsigned char *srcLengthStart;
/* Points to the first of a sequence of bytes
* that encode the length of each command's
* source. The encoding is the same as for
* code deltas. Source lengths are always
* positive. This sequence is just after the
* last byte in the source delta sequence. */
LocalCache *localCachePtr; /* Pointer to the start of the cached variable
* names and initialisation data for local
* variables. */
#ifdef TCL_COMPILE_STATS
Tcl_Time createTime; /* Absolute time when the ByteCode was
* created. */
#endif /* TCL_COMPILE_STATS */
} ByteCode;
/*
* Opcodes for the Tcl bytecode instructions. These must correspond to the
* entries in the table of instruction descriptions, tclInstructionTable, in
* tclCompile.c. Also, the order and number of the expression opcodes (e.g.,
* INST_LOR) must match the entries in the array operatorStrings in
* tclExecute.c.
*/
/* Opcodes 0 to 9 */
#define INST_DONE 0
#define INST_PUSH1 1
#define INST_PUSH4 2
#define INST_POP 3
#define INST_DUP 4
#define INST_CONCAT1 5
#define INST_INVOKE_STK1 6
#define INST_INVOKE_STK4 7
#define INST_EVAL_STK 8
#define INST_EXPR_STK 9
/* Opcodes 10 to 23 */
#define INST_LOAD_SCALAR1 10
#define INST_LOAD_SCALAR4 11
#define INST_LOAD_SCALAR_STK 12
#define INST_LOAD_ARRAY1 13
#define INST_LOAD_ARRAY4 14
#define INST_LOAD_ARRAY_STK 15
#define INST_LOAD_STK 16
#define INST_STORE_SCALAR1 17
#define INST_STORE_SCALAR4 18
#define INST_STORE_SCALAR_STK 19
#define INST_STORE_ARRAY1 20
#define INST_STORE_ARRAY4 21
#define INST_STORE_ARRAY_STK 22
#define INST_STORE_STK 23
/* Opcodes 24 to 33 */
#define INST_INCR_SCALAR1 24
#define INST_INCR_SCALAR_STK 25
#define INST_INCR_ARRAY1 26
#define INST_INCR_ARRAY_STK 27
#define INST_INCR_STK 28
#define INST_INCR_SCALAR1_IMM 29
#define INST_INCR_SCALAR_STK_IMM 30
#define INST_INCR_ARRAY1_IMM 31
#define INST_INCR_ARRAY_STK_IMM 32
#define INST_INCR_STK_IMM 33
/* Opcodes 34 to 39 */
#define INST_JUMP1 34
#define INST_JUMP4 35
#define INST_JUMP_TRUE1 36
#define INST_JUMP_TRUE4 37
#define INST_JUMP_FALSE1 38
#define INST_JUMP_FALSE4 39
/* Opcodes 40 to 64 */
#define INST_LOR 40
#define INST_LAND 41
#define INST_BITOR 42
#define INST_BITXOR 43
#define INST_BITAND 44
#define INST_EQ 45
#define INST_NEQ 46
#define INST_LT 47
#define INST_GT 48
#define INST_LE 49
#define INST_GE 50
#define INST_LSHIFT 51
#define INST_RSHIFT 52
#define INST_ADD 53
#define INST_SUB 54
#define INST_MULT 55
#define INST_DIV 56
#define INST_MOD 57
#define INST_UPLUS 58
#define INST_UMINUS 59
#define INST_BITNOT 60
#define INST_LNOT 61
#define INST_CALL_BUILTIN_FUNC1 62
#define INST_CALL_FUNC1 63
#define INST_TRY_CVT_TO_NUMERIC 64
/* Opcodes 65 to 66 */
#define INST_BREAK 65
#define INST_CONTINUE 66
/* Opcodes 67 to 68 */
#define INST_FOREACH_START4 67
#define INST_FOREACH_STEP4 68
/* Opcodes 69 to 72 */
#define INST_BEGIN_CATCH4 69
#define INST_END_CATCH 70
#define INST_PUSH_RESULT 71
#define INST_PUSH_RETURN_CODE 72
/* Opcodes 73 to 78 */
#define INST_STR_EQ 73
#define INST_STR_NEQ 74
#define INST_STR_CMP 75
#define INST_STR_LEN 76
#define INST_STR_INDEX 77
#define INST_STR_MATCH 78
/* Opcodes 78 to 81 */
#define INST_LIST 79
#define INST_LIST_INDEX 80
#define INST_LIST_LENGTH 81
/* Opcodes 82 to 87 */
#define INST_APPEND_SCALAR1 82
#define INST_APPEND_SCALAR4 83
#define INST_APPEND_ARRAY1 84
#define INST_APPEND_ARRAY4 85
#define INST_APPEND_ARRAY_STK 86
#define INST_APPEND_STK 87
/* Opcodes 88 to 93 */
#define INST_LAPPEND_SCALAR1 88
#define INST_LAPPEND_SCALAR4 89
#define INST_LAPPEND_ARRAY1 90
#define INST_LAPPEND_ARRAY4 91
#define INST_LAPPEND_ARRAY_STK 92
#define INST_LAPPEND_STK 93
/* TIP #22 - LINDEX operator with flat arg list */
#define INST_LIST_INDEX_MULTI 94
/*
* TIP #33 - 'lset' command. Code gen also required a Forth-like
* OVER operation.
*/
#define INST_OVER 95
#define INST_LSET_LIST 96
#define INST_LSET_FLAT 97
/* TIP#90 - 'return' command. */
#define INST_RETURN_IMM 98
/* TIP#123 - exponentiation operator. */
#define INST_EXPON 99
/* TIP #157 - {*}... (word expansion) language syntax support. */
#define INST_EXPAND_START 100
#define INST_EXPAND_STKTOP 101
#define INST_INVOKE_EXPANDED 102
/*
* TIP #57 - 'lassign' command. Code generation requires immediate
* LINDEX and LRANGE operators.
*/
#define INST_LIST_INDEX_IMM 103
#define INST_LIST_RANGE_IMM 104
#define INST_START_CMD 105
#define INST_LIST_IN 106
#define INST_LIST_NOT_IN 107
#define INST_PUSH_RETURN_OPTIONS 108
#define INST_RETURN_STK 109
/*
* Dictionary (TIP#111) related commands.
*/
#define INST_DICT_GET 110
#define INST_DICT_SET 111
#define INST_DICT_UNSET 112
#define INST_DICT_INCR_IMM 113
#define INST_DICT_APPEND 114
#define INST_DICT_LAPPEND 115
#define INST_DICT_FIRST 116
#define INST_DICT_NEXT 117
#define INST_DICT_DONE 118
#define INST_DICT_UPDATE_START 119
#define INST_DICT_UPDATE_END 120
/*
* Instruction to support jumps defined by tables (instead of the classic
* [switch] technique of chained comparisons).
*/
#define INST_JUMP_TABLE 121
/*
* Instructions to support compilation of global, variable, upvar and
* [namespace upvar].
*/
#define INST_UPVAR 122
#define INST_NSUPVAR 123
#define INST_VARIABLE 124
/* Instruction to support compiling syntax error to bytecode */
#define INST_SYNTAX 125
/* Instruction to reverse N items on top of stack */
#define INST_REVERSE 126
/* regexp instruction */
#define INST_REGEXP 127
/* For [info exists] compilation */
#define INST_EXIST_SCALAR 128
#define INST_EXIST_ARRAY 129
#define INST_EXIST_ARRAY_STK 130
#define INST_EXIST_STK 131
/* For [subst] compilation */
#define INST_NOP 132
#define INST_RETURN_CODE_BRANCH 133
/* For [unset] compilation */
#define INST_UNSET_SCALAR 134
#define INST_UNSET_ARRAY 135
#define INST_UNSET_ARRAY_STK 136
#define INST_UNSET_STK 137
/* For [dict with], [dict exists], [dict create] and [dict merge] */
#define INST_DICT_EXPAND 138
#define INST_DICT_RECOMBINE_STK 139
#define INST_DICT_RECOMBINE_IMM 140
#define INST_DICT_EXISTS 141
#define INST_DICT_VERIFY 142
/* For [string map] and [regsub] compilation */
#define INST_STR_MAP 143
#define INST_STR_FIND 144
#define INST_STR_FIND_LAST 145
#define INST_STR_RANGE_IMM 146
#define INST_STR_RANGE 147
/* For operations to do with coroutines and other NRE-manipulators */
#define INST_YIELD 148
#define INST_COROUTINE_NAME 149
#define INST_TAILCALL 150
/* For compilation of basic information operations */
#define INST_NS_CURRENT 151
#define INST_INFO_LEVEL_NUM 152
#define INST_INFO_LEVEL_ARGS 153
#define INST_RESOLVE_COMMAND 154
#define INST_TCLOO_SELF 155
#define INST_TCLOO_CLASS 156
#define INST_TCLOO_NS 157
#define INST_TCLOO_IS_OBJECT 158
/* For compilation of [array] subcommands */
#define INST_ARRAY_EXISTS_STK 159
#define INST_ARRAY_EXISTS_IMM 160
#define INST_ARRAY_MAKE_STK 161
#define INST_ARRAY_MAKE_IMM 162
#define INST_INVOKE_REPLACE 163
/* The last opcode */
#define LAST_INST_OPCODE 163
/*
* Table describing the Tcl bytecode instructions: their name (for displaying
* code), total number of code bytes required (including operand bytes), and a
* description of the type of each operand. These operand types include signed
* and unsigned integers of length one and four bytes. The unsigned integers
* are used for indexes or for, e.g., the count of objects to push in a "push"
* instruction.
*/
#define MAX_INSTRUCTION_OPERANDS 2
typedef enum InstOperandType {
OPERAND_NONE,
OPERAND_INT1, /* One byte signed integer. */
OPERAND_INT4, /* Four byte signed integer. */
OPERAND_UINT1, /* One byte unsigned integer. */
OPERAND_UINT4, /* Four byte unsigned integer. */
OPERAND_IDX4, /* Four byte signed index (actually an
* integer, but displayed differently.) */
OPERAND_LVT1, /* One byte unsigned index into the local
* variable table. */
OPERAND_LVT4, /* Four byte unsigned index into the local
* variable table. */
OPERAND_AUX4 /* Four byte unsigned index into the aux data
* table. */
} InstOperandType;
typedef struct InstructionDesc {
const char *name; /* Name of instruction. */
int numBytes; /* Total number of bytes for instruction. */
int stackEffect; /* The worst-case balance stack effect of the
* instruction, used for stack requirements
* computations. The value INT_MIN signals
* that the instruction's worst case effect is
* (1-opnd1). */
int numOperands; /* Number of operands. */
InstOperandType opTypes[MAX_INSTRUCTION_OPERANDS];
/* The type of each operand. */
} InstructionDesc;
MODULE_SCOPE InstructionDesc const tclInstructionTable[];
/*
* Compilation of some Tcl constructs such as if commands and the logical or
* (||) and logical and (&&) operators in expressions requires the generation
* of forward jumps. Since the PC target of these jumps isn't known when the
* jumps are emitted, we record the offset of each jump in an array of
* JumpFixup structures. There is one array for each sequence of jumps to one
* target PC. When we learn the target PC, we update the jumps with the
* correct distance. Also, if the distance is too great (> 127 bytes), we
* replace the single-byte jump with a four byte jump instruction, move the
* instructions after the jump down, and update the code offsets for any
* commands between the jump and the target.
*/
typedef enum {
TCL_UNCONDITIONAL_JUMP,
TCL_TRUE_JUMP,
TCL_FALSE_JUMP
} TclJumpType;
typedef struct JumpFixup {
TclJumpType jumpType; /* Indicates the kind of jump. */
int codeOffset; /* Offset of the first byte of the one-byte
* forward jump's code. */
int cmdIndex; /* Index of the first command after the one
* for which the jump was emitted. Used to
* update the code offsets for subsequent
* commands if the two-byte jump at jumpPc
* must be replaced with a five-byte one. */
int exceptIndex; /* Index of the first range entry in the
* ExceptionRange array after the current one.
* This field is used to adjust the code
* offsets in subsequent ExceptionRange
* records when a jump is grown from 2 bytes
* to 5 bytes. */
} JumpFixup;
#define JUMPFIXUP_INIT_ENTRIES 10
typedef struct JumpFixupArray {
JumpFixup *fixup; /* Points to start of jump fixup array. */
int next; /* Index of next free array entry. */
int end; /* Index of last usable entry in array. */
int mallocedArray; /* 1 if array was expanded and fixups points
* into the heap, else 0. */
JumpFixup staticFixupSpace[JUMPFIXUP_INIT_ENTRIES];
/* Initial storage for jump fixup array. */
} JumpFixupArray;
/*
* The structure describing one variable list of a foreach command. Note that
* only foreach commands inside procedure bodies are compiled inline so a
* ForeachVarList structure always describes local variables. Furthermore,
* only scalar variables are supported for inline-compiled foreach loops.
*/
typedef struct ForeachVarList {
int numVars; /* The number of variables in the list. */
int varIndexes[1]; /* An array of the indexes ("slot numbers")
* for each variable in the procedure's array
* of local variables. Only scalar variables
* are supported. The actual size of this
* field will be large enough to numVars
* indexes. THIS MUST BE THE LAST FIELD IN THE
* STRUCTURE! */
} ForeachVarList;
/*
* Structure used to hold information about a foreach command that is needed
* during program execution. These structures are stored in CompileEnv and
* ByteCode structures as auxiliary data.
*/
typedef struct ForeachInfo {
int numLists; /* The number of both the variable and value
* lists of the foreach command. */
int firstValueTemp; /* Index of the first temp var in a proc frame
* used to point to a value list. */
int loopCtTemp; /* Index of temp var in a proc frame holding
* the loop's iteration count. Used to
* determine next value list element to assign
* each loop var. */
ForeachVarList *varLists[1];/* An array of pointers to ForeachVarList
* structures describing each var list. The
* actual size of this field will be large
* enough to numVars indexes. THIS MUST BE THE
* LAST FIELD IN THE STRUCTURE! */
} ForeachInfo;
MODULE_SCOPE const AuxDataType tclForeachInfoType;
/*
* Structure used to hold information about a switch command that is needed
* during program execution. These structures are stored in CompileEnv and
* ByteCode structures as auxiliary data.
*/
typedef struct JumptableInfo {
Tcl_HashTable hashTable; /* Hash that maps strings to signed ints (PC
* offsets). */
} JumptableInfo;
MODULE_SCOPE const AuxDataType tclJumptableInfoType;
/*
* Structure used to hold information about a [dict update] command that is
* needed during program execution. These structures are stored in CompileEnv
* and ByteCode structures as auxiliary data.
*/
typedef struct {
int length; /* Size of array */
int varIndices[1]; /* Array of variable indices to manage when
* processing the start and end of a [dict
* update]. There is really more than one
* entry, and the structure is allocated to
* take account of this. MUST BE LAST FIELD IN
* STRUCTURE. */
} DictUpdateInfo;
MODULE_SCOPE const AuxDataType tclDictUpdateInfoType;
/*
* ClientData type used by the math operator commands.
*/
typedef struct {
const char *op; /* Do not call it 'operator': C++ reserved */
const char *expected;
union {
int numArgs;
int identity;
} i;
} TclOpCmdClientData;
/*
*----------------------------------------------------------------
* Procedures exported by tclBasic.c to be used within the engine.
*----------------------------------------------------------------
*/
MODULE_SCOPE Tcl_ObjCmdProc TclNRInterpCoroutine;
/*
*----------------------------------------------------------------
* Procedures exported by the engine to be used by tclBasic.c
*----------------------------------------------------------------
*/
MODULE_SCOPE ByteCode * TclCompileObj(Tcl_Interp *interp, Tcl_Obj *objPtr,
const CmdFrame *invoker, int word);
/*
*----------------------------------------------------------------
* Procedures shared among Tcl bytecode compilation and execution modules but
* not used outside:
*----------------------------------------------------------------
*/
MODULE_SCOPE void TclCleanupByteCode(ByteCode *codePtr);
MODULE_SCOPE void TclCompileCmdWord(Tcl_Interp *interp,
Tcl_Token *tokenPtr, int count,
CompileEnv *envPtr);
MODULE_SCOPE void TclCompileExpr(Tcl_Interp *interp, const char *script,
int numBytes, CompileEnv *envPtr, int optimize);
MODULE_SCOPE void TclCompileExprWords(Tcl_Interp *interp,
Tcl_Token *tokenPtr, int numWords,
CompileEnv *envPtr);
MODULE_SCOPE void TclCompileScript(Tcl_Interp *interp,
const char *script, int numBytes,
CompileEnv *envPtr);
MODULE_SCOPE void TclCompileSyntaxError(Tcl_Interp *interp,
CompileEnv *envPtr);
MODULE_SCOPE void TclCompileTokens(Tcl_Interp *interp,
Tcl_Token *tokenPtr, int count,
CompileEnv *envPtr);
MODULE_SCOPE void TclCompileVarSubst(Tcl_Interp *interp,
Tcl_Token *tokenPtr, CompileEnv *envPtr);
MODULE_SCOPE int TclCreateAuxData(ClientData clientData,
const AuxDataType *typePtr, CompileEnv *envPtr);
MODULE_SCOPE int TclCreateExceptRange(ExceptionRangeType type,
CompileEnv *envPtr);
MODULE_SCOPE ExecEnv * TclCreateExecEnv(Tcl_Interp *interp, int size);
MODULE_SCOPE Tcl_Obj * TclCreateLiteral(Interp *iPtr, char *bytes,
int length, unsigned int hash, int *newPtr,
Namespace *nsPtr, int flags,
LiteralEntry **globalPtrPtr);
MODULE_SCOPE void TclDeleteExecEnv(ExecEnv *eePtr);
MODULE_SCOPE void TclDeleteLiteralTable(Tcl_Interp *interp,
LiteralTable *tablePtr);
MODULE_SCOPE void TclEmitForwardJump(CompileEnv *envPtr,
TclJumpType jumpType, JumpFixup *jumpFixupPtr);
MODULE_SCOPE ExceptionRange * TclGetExceptionRangeForPc(unsigned char *pc,
int catchOnly, ByteCode *codePtr);
MODULE_SCOPE void TclExpandJumpFixupArray(JumpFixupArray *fixupArrayPtr);
MODULE_SCOPE int TclNRExecuteByteCode(Tcl_Interp *interp,
ByteCode *codePtr);
MODULE_SCOPE Tcl_Obj * TclFetchLiteral(CompileEnv *envPtr, unsigned int index);
MODULE_SCOPE void TclFinalizeAuxDataTypeTable(void);
MODULE_SCOPE int TclFindCompiledLocal(const char *name, int nameChars,
int create, CompileEnv *envPtr);
MODULE_SCOPE int TclFixupForwardJump(CompileEnv *envPtr,
JumpFixup *jumpFixupPtr, int jumpDist,
int distThreshold);
MODULE_SCOPE void TclFreeCompileEnv(CompileEnv *envPtr);
MODULE_SCOPE void TclFreeJumpFixupArray(JumpFixupArray *fixupArrayPtr);
MODULE_SCOPE void TclInitAuxDataTypeTable(void);
MODULE_SCOPE void TclInitByteCodeObj(Tcl_Obj *objPtr,
CompileEnv *envPtr);
MODULE_SCOPE void TclInitCompileEnv(Tcl_Interp *interp,
CompileEnv *envPtr, const char *string,
int numBytes, const CmdFrame *invoker, int word);
MODULE_SCOPE void TclInitJumpFixupArray(JumpFixupArray *fixupArrayPtr);
MODULE_SCOPE void TclInitLiteralTable(LiteralTable *tablePtr);
#ifdef TCL_COMPILE_STATS
MODULE_SCOPE char * TclLiteralStats(LiteralTable *tablePtr);
MODULE_SCOPE int TclLog2(int value);
#endif
#ifdef TCL_COMPILE_DEBUG
MODULE_SCOPE void TclPrintByteCodeObj(Tcl_Interp *interp,
Tcl_Obj *objPtr);
#endif
MODULE_SCOPE int TclPrintInstruction(ByteCode *codePtr,
const unsigned char *pc);
MODULE_SCOPE void TclPrintObject(FILE *outFile,
Tcl_Obj *objPtr, int maxChars);
MODULE_SCOPE void TclPrintSource(FILE *outFile,
const char *string, int maxChars);
MODULE_SCOPE int TclRegisterLiteral(CompileEnv *envPtr,
char *bytes, int length, int flags);
MODULE_SCOPE void TclReleaseLiteral(Tcl_Interp *interp, Tcl_Obj *objPtr);
MODULE_SCOPE void TclInvalidateCmdLiteral(Tcl_Interp *interp,
const char *name, Namespace *nsPtr);
MODULE_SCOPE int TclSingleOpCmd(ClientData clientData,
Tcl_Interp *interp, int objc,
Tcl_Obj *const objv[]);
MODULE_SCOPE int TclSortingOpCmd(ClientData clientData,
Tcl_Interp *interp, int objc,
Tcl_Obj *const objv[]);
MODULE_SCOPE int TclVariadicOpCmd(ClientData clientData,
Tcl_Interp *interp, int objc,
Tcl_Obj *const objv[]);
MODULE_SCOPE int TclNoIdentOpCmd(ClientData clientData,
Tcl_Interp *interp, int objc,
Tcl_Obj *const objv[]);
#ifdef TCL_COMPILE_DEBUG
MODULE_SCOPE void TclVerifyGlobalLiteralTable(Interp *iPtr);
MODULE_SCOPE void TclVerifyLocalLiteralTable(CompileEnv *envPtr);
#endif
MODULE_SCOPE int TclWordKnownAtCompileTime(Tcl_Token *tokenPtr,
Tcl_Obj *valuePtr);
MODULE_SCOPE void TclLogCommandInfo(Tcl_Interp *interp,
const char *script,
const char *command, int length,
const unsigned char *pc, Tcl_Obj **tosPtr);
MODULE_SCOPE Tcl_Obj *TclGetInnerContext(Tcl_Interp *interp,
const unsigned char *pc, Tcl_Obj **tosPtr);
MODULE_SCOPE Tcl_Obj *TclNewInstNameObj(unsigned char inst);
/*
*----------------------------------------------------------------
* Macros and flag values used by Tcl bytecode compilation and execution
* modules inside the Tcl core but not used outside.
*----------------------------------------------------------------
*/
#define LITERAL_ON_HEAP 0x01
#define LITERAL_CMD_NAME 0x02
/*
* Form of TclRegisterLiteral with flags == 0. In that case, it is safe to
* cast away constness, and it is cleanest to do that here, all in one place.
*
* int TclRegisterNewLiteral(CompileEnv *envPtr, const char *bytes,
* int length);
*/
#define TclRegisterNewLiteral(envPtr, bytes, length) \
TclRegisterLiteral(envPtr, (char *)(bytes), length, /*flags*/ 0)
/*
* Form of TclRegisterLiteral with flags == LITERAL_CMD_NAME. In that case, it
* is safe to cast away constness, and it is cleanest to do that here, all in
* one place.
*
* int TclRegisterNewNSLiteral(CompileEnv *envPtr, const char *bytes,
* int length);
*/
#define TclRegisterNewCmdLiteral(envPtr, bytes, length) \
TclRegisterLiteral(envPtr, (char *)(bytes), length, LITERAL_CMD_NAME)
/*
* Macro used to manually adjust the stack requirements; used in cases where
* the stack effect cannot be computed from the opcode and its operands, but
* is still known at compile time.
*
* void TclAdjustStackDepth(int delta, CompileEnv *envPtr);
*/
#define TclAdjustStackDepth(delta, envPtr) \
do { \
if ((delta) < 0) { \
if ((envPtr)->maxStackDepth < (envPtr)->currStackDepth) { \
(envPtr)->maxStackDepth = (envPtr)->currStackDepth; \
} \
} \
(envPtr)->currStackDepth += (delta); \
} while (0)
/*
* Macro used to update the stack requirements. It is called by the macros
* TclEmitOpCode, TclEmitInst1 and TclEmitInst4.
* Remark that the very last instruction of a bytecode always reduces the
* stack level: INST_DONE or INST_POP, so that the maxStackdepth is always
* updated.
*
* void TclUpdateStackReqs(unsigned char op, int i, CompileEnv *envPtr);
*/
#define TclUpdateStackReqs(op, i, envPtr) \
do { \
int delta = tclInstructionTable[(op)].stackEffect; \
if (delta) { \
if (delta == INT_MIN) { \
delta = 1 - (i); \
} \
TclAdjustStackDepth(delta, envPtr); \
} \
} while (0)
/*
* Macro to emit an opcode byte into a CompileEnv's code array. The ANSI C
* "prototype" for this macro is:
*
* void TclEmitOpcode(unsigned char op, CompileEnv *envPtr);
*/
#define TclEmitOpcode(op, envPtr) \
do { \
if ((envPtr)->codeNext == (envPtr)->codeEnd) { \
TclExpandCodeArray(envPtr); \
} \
*(envPtr)->codeNext++ = (unsigned char) (op); \
(envPtr)->atCmdStart = ((op) == INST_START_CMD); \
TclUpdateStackReqs(op, 0, envPtr); \
} while (0)
/*
* Macros to emit an integer operand. The ANSI C "prototype" for these macros
* are:
*
* void TclEmitInt1(int i, CompileEnv *envPtr);
* void TclEmitInt4(int i, CompileEnv *envPtr);
*/
#define TclEmitInt1(i, envPtr) \
do { \
if ((envPtr)->codeNext == (envPtr)->codeEnd) { \
TclExpandCodeArray(envPtr); \
} \
*(envPtr)->codeNext++ = (unsigned char) ((unsigned int) (i)); \
} while (0)
#define TclEmitInt4(i, envPtr) \
do { \
if (((envPtr)->codeNext + 4) > (envPtr)->codeEnd) { \
TclExpandCodeArray(envPtr); \
} \
*(envPtr)->codeNext++ = \
(unsigned char) ((unsigned int) (i) >> 24); \
*(envPtr)->codeNext++ = \
(unsigned char) ((unsigned int) (i) >> 16); \
*(envPtr)->codeNext++ = \
(unsigned char) ((unsigned int) (i) >> 8); \
*(envPtr)->codeNext++ = \
(unsigned char) ((unsigned int) (i) ); \
} while (0)
/*
* Macros to emit an instruction with signed or unsigned integer operands.
* Four byte integers are stored in "big-endian" order with the high order
* byte stored at the lowest address. The ANSI C "prototypes" for these macros
* are:
*
* void TclEmitInstInt1(unsigned char op, int i, CompileEnv *envPtr);
* void TclEmitInstInt4(unsigned char op, int i, CompileEnv *envPtr);
*/
#define TclEmitInstInt1(op, i, envPtr) \
do { \
if (((envPtr)->codeNext + 2) > (envPtr)->codeEnd) { \
TclExpandCodeArray(envPtr); \
} \
*(envPtr)->codeNext++ = (unsigned char) (op); \
*(envPtr)->codeNext++ = (unsigned char) ((unsigned int) (i)); \
(envPtr)->atCmdStart = ((op) == INST_START_CMD); \
TclUpdateStackReqs(op, i, envPtr); \
} while (0)
#define TclEmitInstInt4(op, i, envPtr) \
do { \
if (((envPtr)->codeNext + 5) > (envPtr)->codeEnd) { \
TclExpandCodeArray(envPtr); \
} \
*(envPtr)->codeNext++ = (unsigned char) (op); \
*(envPtr)->codeNext++ = \
(unsigned char) ((unsigned int) (i) >> 24); \
*(envPtr)->codeNext++ = \
(unsigned char) ((unsigned int) (i) >> 16); \
*(envPtr)->codeNext++ = \
(unsigned char) ((unsigned int) (i) >> 8); \
*(envPtr)->codeNext++ = \
(unsigned char) ((unsigned int) (i) ); \
(envPtr)->atCmdStart = ((op) == INST_START_CMD); \
TclUpdateStackReqs(op, i, envPtr); \
} while (0)
/*
* Macro to push a Tcl object onto the Tcl evaluation stack. It emits the
* object's one or four byte array index into the CompileEnv's code array.
* These support, respectively, a maximum of 256 (2**8) and 2**32 objects in a
* CompileEnv. The ANSI C "prototype" for this macro is:
*
* void TclEmitPush(int objIndex, CompileEnv *envPtr);
*/
#define TclEmitPush(objIndex, envPtr) \
do { \
register int objIndexCopy = (objIndex); \
if (objIndexCopy <= 255) { \
TclEmitInstInt1(INST_PUSH1, objIndexCopy, (envPtr)); \
} else { \
TclEmitInstInt4(INST_PUSH4, objIndexCopy, (envPtr)); \
} \
} while (0)
/*
* Macros to update a (signed or unsigned) integer starting at a pointer. The
* two variants depend on the number of bytes. The ANSI C "prototypes" for
* these macros are:
*
* void TclStoreInt1AtPtr(int i, unsigned char *p);
* void TclStoreInt4AtPtr(int i, unsigned char *p);
*/
#define TclStoreInt1AtPtr(i, p) \
*(p) = (unsigned char) ((unsigned int) (i))
#define TclStoreInt4AtPtr(i, p) \
do { \
*(p) = (unsigned char) ((unsigned int) (i) >> 24); \
*(p+1) = (unsigned char) ((unsigned int) (i) >> 16); \
*(p+2) = (unsigned char) ((unsigned int) (i) >> 8); \
*(p+3) = (unsigned char) ((unsigned int) (i) ); \
} while (0)
/*
* Macros to update instructions at a particular pc with a new op code and a
* (signed or unsigned) int operand. The ANSI C "prototypes" for these macros
* are:
*
* void TclUpdateInstInt1AtPc(unsigned char op, int i, unsigned char *pc);
* void TclUpdateInstInt4AtPc(unsigned char op, int i, unsigned char *pc);
*/
#define TclUpdateInstInt1AtPc(op, i, pc) \
do { \
*(pc) = (unsigned char) (op); \
TclStoreInt1AtPtr((i), ((pc)+1)); \
} while (0)
#define TclUpdateInstInt4AtPc(op, i, pc) \
do { \
*(pc) = (unsigned char) (op); \
TclStoreInt4AtPtr((i), ((pc)+1)); \
} while (0)
/*
* Macro to fix up a forward jump to point to the current code-generation
* position in the bytecode being created (the most common case). The ANSI C
* "prototypes" for this macro is:
*
* int TclFixupForwardJumpToHere(CompileEnv *envPtr, JumpFixup *fixupPtr,
* int threshold);
*/
#define TclFixupForwardJumpToHere(envPtr, fixupPtr, threshold) \
TclFixupForwardJump((envPtr), (fixupPtr), \
(envPtr)->codeNext-(envPtr)->codeStart-(fixupPtr)->codeOffset, \
(threshold))
/*
* Macros to get a signed integer (GET_INT{1,2}) or an unsigned int
* (GET_UINT{1,2}) from a pointer. There are two variants for each return type
* that depend on the number of bytes fetched. The ANSI C "prototypes" for
* these macros are:
*
* int TclGetInt1AtPtr(unsigned char *p);
* int TclGetInt4AtPtr(unsigned char *p);
* unsigned int TclGetUInt1AtPtr(unsigned char *p);
* unsigned int TclGetUInt4AtPtr(unsigned char *p);
*/
/*
* The TclGetInt1AtPtr macro is tricky because we want to do sign extension on
* the 1-byte value. Unfortunately the "char" type isn't signed on all
* platforms so sign-extension doesn't always happen automatically. Sometimes
* we can explicitly declare the pointer to be signed, but other times we have
* to explicitly sign-extend the value in software.
*/
#ifndef __CHAR_UNSIGNED__
# define TclGetInt1AtPtr(p) ((int) *((char *) p))
#elif defined(HAVE_SIGNED_CHAR)
# define TclGetInt1AtPtr(p) ((int) *((signed char *) p))
#else
# define TclGetInt1AtPtr(p) \
(((int) *((char *) p)) | ((*(p) & 0200) ? (-256) : 0))
#endif
#define TclGetInt4AtPtr(p) \
(((int) TclGetInt1AtPtr(p) << 24) | \
(*((p)+1) << 16) | \
(*((p)+2) << 8) | \
(*((p)+3)))
#define TclGetUInt1AtPtr(p) \
((unsigned int) *(p))
#define TclGetUInt4AtPtr(p) \
((unsigned int) (*(p) << 24) | \
(*((p)+1) << 16) | \
(*((p)+2) << 8) | \
(*((p)+3)))
/*
* Macros used to compute the minimum and maximum of two integers. The ANSI C
* "prototypes" for these macros are:
*
* int TclMin(int i, int j);
* int TclMax(int i, int j);
*/
#define TclMin(i, j) ((((int) i) < ((int) j))? (i) : (j))
#define TclMax(i, j) ((((int) i) > ((int) j))? (i) : (j))
/*
* Convenience macro for use when compiling bodies of commands. The ANSI C
* "prototype" for this macro is:
*
* static void CompileBody(CompileEnv *envPtr, Tcl_Token *tokenPtr,
* Tcl_Interp *interp);
*/
#define CompileBody(envPtr, tokenPtr, interp) \
TclCompileCmdWord((interp), (tokenPtr)+1, (tokenPtr)->numComponents, \
(envPtr))
/*
* Convenience macro for use when compiling tokens to be pushed. The ANSI C
* "prototype" for this macro is:
*
* static void CompileTokens(CompileEnv *envPtr, Tcl_Token *tokenPtr,
* Tcl_Interp *interp);
*/
#define CompileTokens(envPtr, tokenPtr, interp) \
TclCompileTokens((interp), (tokenPtr)+1, (tokenPtr)->numComponents, \
(envPtr));
/*
* Convenience macro for use when pushing literals. The ANSI C "prototype" for
* this macro is:
*
* static void PushLiteral(CompileEnv *envPtr,
* const char *string, int length);
*/
#define PushLiteral(envPtr, string, length) \
TclEmitPush(TclRegisterNewLiteral((envPtr), (string), (length)), (envPtr))
/*
* Macro to advance to the next token; it is more mnemonic than the address
* arithmetic that it replaces. The ANSI C "prototype" for this macro is:
*
* static Tcl_Token * TokenAfter(Tcl_Token *tokenPtr);
*/
#define TokenAfter(tokenPtr) \
((tokenPtr) + ((tokenPtr)->numComponents + 1))
/*
* Macro to get the offset to the next instruction to be issued. The ANSI C
* "prototype" for this macro is:
*
* static int CurrentOffset(CompileEnv *envPtr);
*/
#define CurrentOffset(envPtr) \
((envPtr)->codeNext - (envPtr)->codeStart)
/*
* Note: the exceptDepth is a bit of a misnomer: TEBC only needs the
* maximal depth of nested CATCH ranges in order to alloc runtime
* memory. These macros should compute precisely that? OTOH, the nesting depth
* of LOOP ranges is an interesting datum for debugging purposes, and that is
* what we compute now.
*
* static int DeclareExceptionRange(CompileEnv *envPtr, int type);
* static int ExceptionRangeStarts(CompileEnv *envPtr, int index);
* static void ExceptionRangeEnds(CompileEnv *envPtr, int index);
* static void ExceptionRangeTarget(CompileEnv *envPtr, int index, LABEL);
*/
#define DeclareExceptionRange(envPtr, type) \
(TclCreateExceptRange((type), (envPtr)))
#define ExceptionRangeStarts(envPtr, index) \
(((envPtr)->exceptDepth++), \
((envPtr)->maxExceptDepth = \
TclMax((envPtr)->exceptDepth, (envPtr)->maxExceptDepth)), \
((envPtr)->exceptArrayPtr[(index)].codeOffset = CurrentOffset(envPtr)))
#define ExceptionRangeEnds(envPtr, index) \
(((envPtr)->exceptDepth--), \
((envPtr)->exceptArrayPtr[(index)].numCodeBytes = \
CurrentOffset(envPtr) - (envPtr)->exceptArrayPtr[(index)].codeOffset))
#define ExceptionRangeTarget(envPtr, index, targetType) \
((envPtr)->exceptArrayPtr[(index)].targetType = CurrentOffset(envPtr))
/*
* Check if there is an LVT for compiled locals
*/
#define EnvHasLVT(envPtr) \
(envPtr->procPtr || envPtr->iPtr->varFramePtr->localCachePtr)
/*
* Macros for making it easier to deal with tokens and DStrings.
*/
#define TclDStringAppendToken(dsPtr, tokenPtr) \
Tcl_DStringAppend((dsPtr), (tokenPtr)->start, (tokenPtr)->size)
#define TclRegisterDStringLiteral(envPtr, dsPtr) \
TclRegisterLiteral(envPtr, Tcl_DStringValue(dsPtr), \
Tcl_DStringLength(dsPtr), /*flags*/ 0)
/*
* DTrace probe macros (NOPs if DTrace support is not enabled).
*/
/*
* Define the following macros to enable debug logging of the DTrace proc,
* cmd, and inst probes. Note that this does _not_ require a platform with
* DTrace, it simply logs all probe output to /tmp/tclDTraceDebug-[pid].log.
*
* If the second macro is defined, logging to file starts immediately,
* otherwise only after the first call to [tcl::dtrace]. Note that the debug
* probe data is always computed, even when it is not logged to file.
*
* Defining the third macro enables debug logging of inst probes (disabled
* by default due to the significant performance impact).
*/
/*
#define TCL_DTRACE_DEBUG 1
#define TCL_DTRACE_DEBUG_LOG_ENABLED 1
#define TCL_DTRACE_DEBUG_INST_PROBES 1
*/
#if !(defined(TCL_DTRACE_DEBUG) && defined(__GNUC__))
#ifdef USE_DTRACE
#if defined(__GNUC__) && __GNUC__ > 2
/*
* Use gcc branch prediction hint to minimize cost of DTrace ENABLED checks.
*/
#define unlikely(x) (__builtin_expect((x), 0))
#else
#define unlikely(x) (x)
#endif
#define TCL_DTRACE_PROC_ENTRY_ENABLED() unlikely(TCL_PROC_ENTRY_ENABLED())
#define TCL_DTRACE_PROC_RETURN_ENABLED() unlikely(TCL_PROC_RETURN_ENABLED())
#define TCL_DTRACE_PROC_RESULT_ENABLED() unlikely(TCL_PROC_RESULT_ENABLED())
#define TCL_DTRACE_PROC_ARGS_ENABLED() unlikely(TCL_PROC_ARGS_ENABLED())
#define TCL_DTRACE_PROC_INFO_ENABLED() unlikely(TCL_PROC_INFO_ENABLED())
#define TCL_DTRACE_PROC_ENTRY(a0, a1, a2) TCL_PROC_ENTRY(a0, a1, a2)
#define TCL_DTRACE_PROC_RETURN(a0, a1) TCL_PROC_RETURN(a0, a1)
#define TCL_DTRACE_PROC_RESULT(a0, a1, a2, a3) TCL_PROC_RESULT(a0, a1, a2, a3)
#define TCL_DTRACE_PROC_ARGS(a0, a1, a2, a3, a4, a5, a6, a7, a8, a9) \
TCL_PROC_ARGS(a0, a1, a2, a3, a4, a5, a6, a7, a8, a9)
#define TCL_DTRACE_PROC_INFO(a0, a1, a2, a3, a4, a5, a6, a7) \
TCL_PROC_INFO(a0, a1, a2, a3, a4, a5, a6, a7)
#define TCL_DTRACE_CMD_ENTRY_ENABLED() unlikely(TCL_CMD_ENTRY_ENABLED())
#define TCL_DTRACE_CMD_RETURN_ENABLED() unlikely(TCL_CMD_RETURN_ENABLED())
#define TCL_DTRACE_CMD_RESULT_ENABLED() unlikely(TCL_CMD_RESULT_ENABLED())
#define TCL_DTRACE_CMD_ARGS_ENABLED() unlikely(TCL_CMD_ARGS_ENABLED())
#define TCL_DTRACE_CMD_INFO_ENABLED() unlikely(TCL_CMD_INFO_ENABLED())
#define TCL_DTRACE_CMD_ENTRY(a0, a1, a2) TCL_CMD_ENTRY(a0, a1, a2)
#define TCL_DTRACE_CMD_RETURN(a0, a1) TCL_CMD_RETURN(a0, a1)
#define TCL_DTRACE_CMD_RESULT(a0, a1, a2, a3) TCL_CMD_RESULT(a0, a1, a2, a3)
#define TCL_DTRACE_CMD_ARGS(a0, a1, a2, a3, a4, a5, a6, a7, a8, a9) \
TCL_CMD_ARGS(a0, a1, a2, a3, a4, a5, a6, a7, a8, a9)
#define TCL_DTRACE_CMD_INFO(a0, a1, a2, a3, a4, a5, a6, a7) \
TCL_CMD_INFO(a0, a1, a2, a3, a4, a5, a6, a7)
#define TCL_DTRACE_INST_START_ENABLED() unlikely(TCL_INST_START_ENABLED())
#define TCL_DTRACE_INST_DONE_ENABLED() unlikely(TCL_INST_DONE_ENABLED())
#define TCL_DTRACE_INST_START(a0, a1, a2) TCL_INST_START(a0, a1, a2)
#define TCL_DTRACE_INST_DONE(a0, a1, a2) TCL_INST_DONE(a0, a1, a2)
#define TCL_DTRACE_TCL_PROBE_ENABLED() unlikely(TCL_TCL_PROBE_ENABLED())
#define TCL_DTRACE_TCL_PROBE(a0, a1, a2, a3, a4, a5, a6, a7, a8, a9) \
TCL_TCL_PROBE(a0, a1, a2, a3, a4, a5, a6, a7, a8, a9)
#define TCL_DTRACE_DEBUG_LOG()
MODULE_SCOPE void TclDTraceInfo(Tcl_Obj *info, const char **args,
int *argsi);
#else /* USE_DTRACE */
#define TCL_DTRACE_PROC_ENTRY_ENABLED() 0
#define TCL_DTRACE_PROC_RETURN_ENABLED() 0
#define TCL_DTRACE_PROC_RESULT_ENABLED() 0
#define TCL_DTRACE_PROC_ARGS_ENABLED() 0
#define TCL_DTRACE_PROC_INFO_ENABLED() 0
#define TCL_DTRACE_PROC_ENTRY(a0, a1, a2) {if (a0) {}}
#define TCL_DTRACE_PROC_RETURN(a0, a1) {if (a0) {}}
#define TCL_DTRACE_PROC_RESULT(a0, a1, a2, a3) {if (a0) {}; if (a3) {}}
#define TCL_DTRACE_PROC_ARGS(a0, a1, a2, a3, a4, a5, a6, a7, a8, a9) {}
#define TCL_DTRACE_PROC_INFO(a0, a1, a2, a3, a4, a5, a6, a7) {}
#define TCL_DTRACE_CMD_ENTRY_ENABLED() 0
#define TCL_DTRACE_CMD_RETURN_ENABLED() 0
#define TCL_DTRACE_CMD_RESULT_ENABLED() 0
#define TCL_DTRACE_CMD_ARGS_ENABLED() 0
#define TCL_DTRACE_CMD_INFO_ENABLED() 0
#define TCL_DTRACE_CMD_ENTRY(a0, a1, a2) {}
#define TCL_DTRACE_CMD_RETURN(a0, a1) {}
#define TCL_DTRACE_CMD_RESULT(a0, a1, a2, a3) {}
#define TCL_DTRACE_CMD_ARGS(a0, a1, a2, a3, a4, a5, a6, a7, a8, a9) {}
#define TCL_DTRACE_CMD_INFO(a0, a1, a2, a3, a4, a5, a6, a7) {}
#define TCL_DTRACE_INST_START_ENABLED() 0
#define TCL_DTRACE_INST_DONE_ENABLED() 0
#define TCL_DTRACE_INST_START(a0, a1, a2) {}
#define TCL_DTRACE_INST_DONE(a0, a1, a2) {}
#define TCL_DTRACE_TCL_PROBE_ENABLED() 0
#define TCL_DTRACE_TCL_PROBE(a0, a1, a2, a3, a4, a5, a6, a7, a8, a9) {}
#define TclDTraceInfo(info, args, argsi) {*args = ""; *argsi = 0;}
#endif /* USE_DTRACE */
#else /* TCL_DTRACE_DEBUG */
#define USE_DTRACE 1
#if !defined(TCL_DTRACE_DEBUG_LOG_ENABLED) || !(TCL_DTRACE_DEBUG_LOG_ENABLED)
#undef TCL_DTRACE_DEBUG_LOG_ENABLED
#define TCL_DTRACE_DEBUG_LOG_ENABLED 0
#endif
#if !defined(TCL_DTRACE_DEBUG_INST_PROBES) || !(TCL_DTRACE_DEBUG_INST_PROBES)
#undef TCL_DTRACE_DEBUG_INST_PROBES
#define TCL_DTRACE_DEBUG_INST_PROBES 0
#endif
MODULE_SCOPE int tclDTraceDebugEnabled, tclDTraceDebugIndent;
MODULE_SCOPE FILE *tclDTraceDebugLog;
MODULE_SCOPE void TclDTraceOpenDebugLog(void);
MODULE_SCOPE void TclDTraceInfo(Tcl_Obj *info, const char **args, int *argsi);
#define TCL_DTRACE_DEBUG_LOG() \
int tclDTraceDebugEnabled = TCL_DTRACE_DEBUG_LOG_ENABLED; \
int tclDTraceDebugIndent = 0; \
FILE *tclDTraceDebugLog = NULL; \
void TclDTraceOpenDebugLog(void) { \
char n[35]; \
sprintf(n, "/tmp/tclDTraceDebug-%lu.log", \
(unsigned long) getpid()); \
tclDTraceDebugLog = fopen(n, "a"); \
}
#define TclDTraceDbgMsg(p, m, ...) \
do { \
if (tclDTraceDebugEnabled) { \
int _l, _t = 0; \
if (!tclDTraceDebugLog) { TclDTraceOpenDebugLog(); } \
fprintf(tclDTraceDebugLog, "%.12s:%.4d:%n", \
strrchr(__FILE__, '/')+1, __LINE__, &_l); _t += _l; \
fprintf(tclDTraceDebugLog, " %.*s():%n", \
(_t < 18 ? 18 - _t : 0) + 18, __func__, &_l); _t += _l; \
fprintf(tclDTraceDebugLog, "%*s" p "%n", \
(_t < 40 ? 40 - _t : 0) + 2 * tclDTraceDebugIndent, \
"", &_l); _t += _l; \
fprintf(tclDTraceDebugLog, "%*s" m "\n", \
(_t < 64 ? 64 - _t : 1), "", ##__VA_ARGS__); \
fflush(tclDTraceDebugLog); \
} \
} while (0)
#define TCL_DTRACE_PROC_ENTRY_ENABLED() 1
#define TCL_DTRACE_PROC_RETURN_ENABLED() 1
#define TCL_DTRACE_PROC_RESULT_ENABLED() 1
#define TCL_DTRACE_PROC_ARGS_ENABLED() 1
#define TCL_DTRACE_PROC_INFO_ENABLED() 1
#define TCL_DTRACE_PROC_ENTRY(a0, a1, a2) \
tclDTraceDebugIndent++; \
TclDTraceDbgMsg("-> proc-entry", "%s %d %p", a0, a1, a2)
#define TCL_DTRACE_PROC_RETURN(a0, a1) \
TclDTraceDbgMsg("<- proc-return", "%s %d", a0, a1); \
tclDTraceDebugIndent--
#define TCL_DTRACE_PROC_RESULT(a0, a1, a2, a3) \
TclDTraceDbgMsg(" | proc-result", "%s %d %s %p", a0, a1, a2, a3)
#define TCL_DTRACE_PROC_ARGS(a0, a1, a2, a3, a4, a5, a6, a7, a8, a9) \
TclDTraceDbgMsg(" | proc-args", "%s %s %s %s %s %s %s %s %s %s", a0, \
a1, a2, a3, a4, a5, a6, a7, a8, a9)
#define TCL_DTRACE_PROC_INFO(a0, a1, a2, a3, a4, a5, a6, a7) \
TclDTraceDbgMsg(" | proc-info", "%s %s %s %s %d %d %s %s", a0, a1, \
a2, a3, a4, a5, a6, a7)
#define TCL_DTRACE_CMD_ENTRY_ENABLED() 1
#define TCL_DTRACE_CMD_RETURN_ENABLED() 1
#define TCL_DTRACE_CMD_RESULT_ENABLED() 1
#define TCL_DTRACE_CMD_ARGS_ENABLED() 1
#define TCL_DTRACE_CMD_INFO_ENABLED() 1
#define TCL_DTRACE_CMD_ENTRY(a0, a1, a2) \
tclDTraceDebugIndent++; \
TclDTraceDbgMsg("-> cmd-entry", "%s %d %p", a0, a1, a2)
#define TCL_DTRACE_CMD_RETURN(a0, a1) \
TclDTraceDbgMsg("<- cmd-return", "%s %d", a0, a1); \
tclDTraceDebugIndent--
#define TCL_DTRACE_CMD_RESULT(a0, a1, a2, a3) \
TclDTraceDbgMsg(" | cmd-result", "%s %d %s %p", a0, a1, a2, a3)
#define TCL_DTRACE_CMD_ARGS(a0, a1, a2, a3, a4, a5, a6, a7, a8, a9) \
TclDTraceDbgMsg(" | cmd-args", "%s %s %s %s %s %s %s %s %s %s", a0, \
a1, a2, a3, a4, a5, a6, a7, a8, a9)
#define TCL_DTRACE_CMD_INFO(a0, a1, a2, a3, a4, a5, a6, a7) \
TclDTraceDbgMsg(" | cmd-info", "%s %s %s %s %d %d %s %s", a0, a1, \
a2, a3, a4, a5, a6, a7)
#define TCL_DTRACE_INST_START_ENABLED() TCL_DTRACE_DEBUG_INST_PROBES
#define TCL_DTRACE_INST_DONE_ENABLED() TCL_DTRACE_DEBUG_INST_PROBES
#define TCL_DTRACE_INST_START(a0, a1, a2) \
TclDTraceDbgMsg(" | inst-start", "%s %d %p", a0, a1, a2)
#define TCL_DTRACE_INST_DONE(a0, a1, a2) \
TclDTraceDbgMsg(" | inst-end", "%s %d %p", a0, a1, a2)
#define TCL_DTRACE_TCL_PROBE_ENABLED() 1
#define TCL_DTRACE_TCL_PROBE(a0, a1, a2, a3, a4, a5, a6, a7, a8, a9) \
do { \
tclDTraceDebugEnabled = 1; \
TclDTraceDbgMsg(" | tcl-probe", "%s %s %s %s %s %s %s %s %s %s", a0, \
a1, a2, a3, a4, a5, a6, a7, a8, a9); \
} while (0)
#endif /* TCL_DTRACE_DEBUG */
#endif /* _TCLCOMPILATION */
/*
* Local Variables:
* mode: c
* c-basic-offset: 4
* fill-column: 78
* End:
*/
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