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|
/*
* tclCompile.c --
*
* This file contains procedures that compile Tcl commands or parts
* of commands (like quoted strings or nested sub-commands) into a
* sequence of instructions ("bytecodes").
*
* Copyright (c) 1996-1998 Sun Microsystems, Inc.
* Copyright (c) 2001 by Kevin B. Kenny. All rights reserved.
*
* See the file "license.terms" for information on usage and redistribution
* of this file, and for a DISCLAIMER OF ALL WARRANTIES.
*
* RCS: @(#) $Id: tclCompile.c,v 1.60 2004/03/30 16:22:11 msofer Exp $
*/
#include "tclInt.h"
#include "tclCompile.h"
/*
* Table of all AuxData types.
*/
static Tcl_HashTable auxDataTypeTable;
static int auxDataTypeTableInitialized; /* 0 means not yet initialized. */
TCL_DECLARE_MUTEX(tableMutex)
/*
* 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".
*/
#ifdef TCL_COMPILE_DEBUG
int tclTraceCompile = 0;
static int traceInitialized = 0;
#endif
/*
* A table describing the Tcl bytecode instructions. Entries in this table
* must correspond to the instruction opcode definitions in tclCompile.h.
* The names "op1" and "op4" refer to an instruction's one or four byte
* first operand. Similarly, "stktop" and "stknext" refer to the topmost
* and next to topmost stack elements.
*
* Note that the load, store, and incr instructions do not distinguish local
* from global variables; the bytecode interpreter at runtime uses the
* existence of a procedure call frame to distinguish these.
*/
InstructionDesc tclInstructionTable[] = {
/* Name Bytes stackEffect #Opnds Operand types Stack top, next */
{"done", 1, -1, 0, {OPERAND_NONE}},
/* Finish ByteCode execution and return stktop (top stack item) */
{"push1", 2, +1, 1, {OPERAND_UINT1}},
/* Push object at ByteCode objArray[op1] */
{"push4", 5, +1, 1, {OPERAND_UINT4}},
/* Push object at ByteCode objArray[op4] */
{"pop", 1, -1, 0, {OPERAND_NONE}},
/* Pop the topmost stack object */
{"dup", 1, +1, 0, {OPERAND_NONE}},
/* Duplicate the topmost stack object and push the result */
{"concat1", 2, INT_MIN, 1, {OPERAND_UINT1}},
/* Concatenate the top op1 items and push result */
{"invokeStk1", 2, INT_MIN, 1, {OPERAND_UINT1}},
/* Invoke command named objv[0]; <objc,objv> = <op1,top op1> */
{"invokeStk4", 5, INT_MIN, 1, {OPERAND_UINT4}},
/* Invoke command named objv[0]; <objc,objv> = <op4,top op4> */
{"evalStk", 1, 0, 0, {OPERAND_NONE}},
/* Evaluate command in stktop using Tcl_EvalObj. */
{"exprStk", 1, 0, 0, {OPERAND_NONE}},
/* Execute expression in stktop using Tcl_ExprStringObj. */
{"loadScalar1", 2, 1, 1, {OPERAND_UINT1}},
/* Load scalar variable at index op1 <= 255 in call frame */
{"loadScalar4", 5, 1, 1, {OPERAND_UINT4}},
/* Load scalar variable at index op1 >= 256 in call frame */
{"loadScalarStk", 1, 0, 0, {OPERAND_NONE}},
/* Load scalar variable; scalar's name is stktop */
{"loadArray1", 2, 0, 1, {OPERAND_UINT1}},
/* Load array element; array at slot op1<=255, element is stktop */
{"loadArray4", 5, 0, 1, {OPERAND_UINT4}},
/* Load array element; array at slot op1 > 255, element is stktop */
{"loadArrayStk", 1, -1, 0, {OPERAND_NONE}},
/* Load array element; element is stktop, array name is stknext */
{"loadStk", 1, 0, 0, {OPERAND_NONE}},
/* Load general variable; unparsed variable name is stktop */
{"storeScalar1", 2, 0, 1, {OPERAND_UINT1}},
/* Store scalar variable at op1<=255 in frame; value is stktop */
{"storeScalar4", 5, 0, 1, {OPERAND_UINT4}},
/* Store scalar variable at op1 > 255 in frame; value is stktop */
{"storeScalarStk", 1, -1, 0, {OPERAND_NONE}},
/* Store scalar; value is stktop, scalar name is stknext */
{"storeArray1", 2, -1, 1, {OPERAND_UINT1}},
/* Store array element; array at op1<=255, value is top then elem */
{"storeArray4", 5, -1, 1, {OPERAND_UINT4}},
/* Store array element; array at op1>=256, value is top then elem */
{"storeArrayStk", 1, -2, 0, {OPERAND_NONE}},
/* Store array element; value is stktop, then elem, array names */
{"storeStk", 1, -1, 0, {OPERAND_NONE}},
/* Store general variable; value is stktop, then unparsed name */
{"incrScalar1", 2, 0, 1, {OPERAND_UINT1}},
/* Incr scalar at index op1<=255 in frame; incr amount is stktop */
{"incrScalarStk", 1, -1, 0, {OPERAND_NONE}},
/* Incr scalar; incr amount is stktop, scalar's name is stknext */
{"incrArray1", 2, -1, 1, {OPERAND_UINT1}},
/* Incr array elem; arr at slot op1<=255, amount is top then elem */
{"incrArrayStk", 1, -2, 0, {OPERAND_NONE}},
/* Incr array element; amount is top then elem then array names */
{"incrStk", 1, -1, 0, {OPERAND_NONE}},
/* Incr general variable; amount is stktop then unparsed var name */
{"incrScalar1Imm", 3, +1, 2, {OPERAND_UINT1, OPERAND_INT1}},
/* Incr scalar at slot op1 <= 255; amount is 2nd operand byte */
{"incrScalarStkImm", 2, 0, 1, {OPERAND_INT1}},
/* Incr scalar; scalar name is stktop; incr amount is op1 */
{"incrArray1Imm", 3, 0, 2, {OPERAND_UINT1, OPERAND_INT1}},
/* Incr array elem; array at slot op1 <= 255, elem is stktop,
* amount is 2nd operand byte */
{"incrArrayStkImm", 2, -1, 1, {OPERAND_INT1}},
/* Incr array element; elem is top then array name, amount is op1 */
{"incrStkImm", 2, 0, 1, {OPERAND_INT1}},
/* Incr general variable; unparsed name is top, amount is op1 */
{"jump1", 2, 0, 1, {OPERAND_INT1}},
/* Jump relative to (pc + op1) */
{"jump4", 5, 0, 1, {OPERAND_INT4}},
/* Jump relative to (pc + op4) */
{"jumpTrue1", 2, -1, 1, {OPERAND_INT1}},
/* Jump relative to (pc + op1) if stktop expr object is true */
{"jumpTrue4", 5, -1, 1, {OPERAND_INT4}},
/* Jump relative to (pc + op4) if stktop expr object is true */
{"jumpFalse1", 2, -1, 1, {OPERAND_INT1}},
/* Jump relative to (pc + op1) if stktop expr object is false */
{"jumpFalse4", 5, -1, 1, {OPERAND_INT4}},
/* Jump relative to (pc + op4) if stktop expr object is false */
{"lor", 1, -1, 0, {OPERAND_NONE}},
/* Logical or: push (stknext || stktop) */
{"land", 1, -1, 0, {OPERAND_NONE}},
/* Logical and: push (stknext && stktop) */
{"bitor", 1, -1, 0, {OPERAND_NONE}},
/* Bitwise or: push (stknext | stktop) */
{"bitxor", 1, -1, 0, {OPERAND_NONE}},
/* Bitwise xor push (stknext ^ stktop) */
{"bitand", 1, -1, 0, {OPERAND_NONE}},
/* Bitwise and: push (stknext & stktop) */
{"eq", 1, -1, 0, {OPERAND_NONE}},
/* Equal: push (stknext == stktop) */
{"neq", 1, -1, 0, {OPERAND_NONE}},
/* Not equal: push (stknext != stktop) */
{"lt", 1, -1, 0, {OPERAND_NONE}},
/* Less: push (stknext < stktop) */
{"gt", 1, -1, 0, {OPERAND_NONE}},
/* Greater: push (stknext || stktop) */
{"le", 1, -1, 0, {OPERAND_NONE}},
/* Logical or: push (stknext || stktop) */
{"ge", 1, -1, 0, {OPERAND_NONE}},
/* Logical or: push (stknext || stktop) */
{"lshift", 1, -1, 0, {OPERAND_NONE}},
/* Left shift: push (stknext << stktop) */
{"rshift", 1, -1, 0, {OPERAND_NONE}},
/* Right shift: push (stknext >> stktop) */
{"add", 1, -1, 0, {OPERAND_NONE}},
/* Add: push (stknext + stktop) */
{"sub", 1, -1, 0, {OPERAND_NONE}},
/* Sub: push (stkext - stktop) */
{"mult", 1, -1, 0, {OPERAND_NONE}},
/* Multiply: push (stknext * stktop) */
{"div", 1, -1, 0, {OPERAND_NONE}},
/* Divide: push (stknext / stktop) */
{"mod", 1, -1, 0, {OPERAND_NONE}},
/* Mod: push (stknext % stktop) */
{"uplus", 1, 0, 0, {OPERAND_NONE}},
/* Unary plus: push +stktop */
{"uminus", 1, 0, 0, {OPERAND_NONE}},
/* Unary minus: push -stktop */
{"bitnot", 1, 0, 0, {OPERAND_NONE}},
/* Bitwise not: push ~stktop */
{"not", 1, 0, 0, {OPERAND_NONE}},
/* Logical not: push !stktop */
{"callBuiltinFunc1", 2, 1, 1, {OPERAND_UINT1}},
/* Call builtin math function with index op1; any args are on stk */
{"callFunc1", 2, INT_MIN, 1, {OPERAND_UINT1}},
/* Call non-builtin func objv[0]; <objc,objv>=<op1,top op1> */
{"tryCvtToNumeric", 1, 0, 0, {OPERAND_NONE}},
/* Try converting stktop to first int then double if possible. */
{"break", 1, 0, 0, {OPERAND_NONE}},
/* Abort closest enclosing loop; if none, return TCL_BREAK code. */
{"continue", 1, 0, 0, {OPERAND_NONE}},
/* Skip to next iteration of closest enclosing loop; if none,
* return TCL_CONTINUE code. */
{"foreach_start4", 5, 0, 1, {OPERAND_UINT4}},
/* Initialize execution of a foreach loop. Operand is aux data index
* of the ForeachInfo structure for the foreach command. */
{"foreach_step4", 5, +1, 1, {OPERAND_UINT4}},
/* "Step" or begin next iteration of foreach loop. Push 0 if to
* terminate loop, else push 1. */
{"beginCatch4", 5, 0, 1, {OPERAND_UINT4}},
/* Record start of catch with the operand's exception index.
* Push the current stack depth onto a special catch stack. */
{"endCatch", 1, 0, 0, {OPERAND_NONE}},
/* End of last catch. Pop the bytecode interpreter's catch stack. */
{"pushResult", 1, +1, 0, {OPERAND_NONE}},
/* Push the interpreter's object result onto the stack. */
{"pushReturnCode", 1, +1, 0, {OPERAND_NONE}},
/* Push interpreter's return code (e.g. TCL_OK or TCL_ERROR) as
* a new object onto the stack. */
{"streq", 1, -1, 0, {OPERAND_NONE}},
/* Str Equal: push (stknext eq stktop) */
{"strneq", 1, -1, 0, {OPERAND_NONE}},
/* Str !Equal: push (stknext neq stktop) */
{"strcmp", 1, -1, 0, {OPERAND_NONE}},
/* Str Compare: push (stknext cmp stktop) */
{"strlen", 1, 0, 0, {OPERAND_NONE}},
/* Str Length: push (strlen stktop) */
{"strindex", 1, -1, 0, {OPERAND_NONE}},
/* Str Index: push (strindex stknext stktop) */
{"strmatch", 2, -1, 1, {OPERAND_INT1}},
/* Str Match: push (strmatch stknext stktop) opnd == nocase */
{"list", 5, INT_MIN, 1, {OPERAND_UINT4}},
/* List: push (stk1 stk2 ... stktop) */
{"listIndex", 1, -1, 0, {OPERAND_NONE}},
/* List Index: push (listindex stknext stktop) */
{"listLength", 1, 0, 0, {OPERAND_NONE}},
/* List Len: push (listlength stktop) */
{"appendScalar1", 2, 0, 1, {OPERAND_UINT1}},
/* Append scalar variable at op1<=255 in frame; value is stktop */
{"appendScalar4", 5, 0, 1, {OPERAND_UINT4}},
/* Append scalar variable at op1 > 255 in frame; value is stktop */
{"appendArray1", 2, -1, 1, {OPERAND_UINT1}},
/* Append array element; array at op1<=255, value is top then elem */
{"appendArray4", 5, -1, 1, {OPERAND_UINT4}},
/* Append array element; array at op1>=256, value is top then elem */
{"appendArrayStk", 1, -2, 0, {OPERAND_NONE}},
/* Append array element; value is stktop, then elem, array names */
{"appendStk", 1, -1, 0, {OPERAND_NONE}},
/* Append general variable; value is stktop, then unparsed name */
{"lappendScalar1", 2, 0, 1, {OPERAND_UINT1}},
/* Lappend scalar variable at op1<=255 in frame; value is stktop */
{"lappendScalar4", 5, 0, 1, {OPERAND_UINT4}},
/* Lappend scalar variable at op1 > 255 in frame; value is stktop */
{"lappendArray1", 2, -1, 1, {OPERAND_UINT1}},
/* Lappend array element; array at op1<=255, value is top then elem */
{"lappendArray4", 5, -1, 1, {OPERAND_UINT4}},
/* Lappend array element; array at op1>=256, value is top then elem */
{"lappendArrayStk", 1, -2, 0, {OPERAND_NONE}},
/* Lappend array element; value is stktop, then elem, array names */
{"lappendStk", 1, -1, 0, {OPERAND_NONE}},
/* Lappend general variable; value is stktop, then unparsed name */
{"lindexMulti", 5, INT_MIN, 1, {OPERAND_UINT4}},
/* Lindex with generalized args, operand is number of stacked objs
* used: (operand-1) entries from stktop are the indices; then list
* to process. */
{"over", 5, +1, 1, {OPERAND_UINT4}},
/* Duplicate the arg-th element from top of stack (TOS=0) */
{"lsetList", 1, -2, 0, {OPERAND_NONE}},
/* Four-arg version of 'lset'. stktop is old value; next is
* new element value, next is the index list; pushes new value */
{"lsetFlat", 5, INT_MIN, 1, {OPERAND_UINT4}},
/* Three- or >=5-arg version of 'lset', operand is number of
* stacked objs: stktop is old value, next is new element value, next
* come (operand-2) indices; pushes the new value.
*/
{"return", 9, -2, 2, {OPERAND_INT4, OPERAND_UINT4}},
/* Compiled [return], code, level are operands; options and result
* are on the stack. */
{"expon", 1, -1, 0, {OPERAND_NONE}},
/* Binary exponentiation operator: push (stknext ** stktop) */
{"listverify", 1, 0, 0, {OPERAND_NONE}},
/* Test that top of stack is a valid list; error if not */
{"invokeExp", INT_MIN, INT_MIN, 2, {OPERAND_UINT4, OPERAND_ULIST1}},
/* Invoke with expansion: <objc,objv> = expanded <op1,top op1> */
{"listIndexImm", 5, 0, 1, {OPERAND_IDX4}},
/* List Index: push (lindex stktop op4) */
{"listRangeImm", 9, 0, 2, {OPERAND_IDX4, OPERAND_IDX4}},
/* List Range: push (lrange stktop op4 op4) */
{"startCommand", 5, 0, 1, {OPERAND_UINT4}},
/* Start of bytecoded command: op is the length of the cmd's code */
{0}
};
/*
* Prototypes for procedures defined later in this file:
*/
static void DupByteCodeInternalRep _ANSI_ARGS_((Tcl_Obj *srcPtr,
Tcl_Obj *copyPtr));
static unsigned char * EncodeCmdLocMap _ANSI_ARGS_((
CompileEnv *envPtr, ByteCode *codePtr,
unsigned char *startPtr));
static void EnterCmdExtentData _ANSI_ARGS_((
CompileEnv *envPtr, int cmdNumber,
int numSrcBytes, int numCodeBytes));
static void EnterCmdStartData _ANSI_ARGS_((
CompileEnv *envPtr, int cmdNumber,
int srcOffset, int codeOffset));
static void FreeByteCodeInternalRep _ANSI_ARGS_((
Tcl_Obj *objPtr));
static int GetCmdLocEncodingSize _ANSI_ARGS_((
CompileEnv *envPtr));
static void LogCompilationInfo _ANSI_ARGS_((Tcl_Interp *interp,
CONST char *script, CONST char *command,
int length));
#ifdef TCL_COMPILE_STATS
static void RecordByteCodeStats _ANSI_ARGS_((
ByteCode *codePtr));
#endif /* TCL_COMPILE_STATS */
static int SetByteCodeFromAny _ANSI_ARGS_((Tcl_Interp *interp,
Tcl_Obj *objPtr));
/*
* The structure below defines the bytecode Tcl object type by
* means of procedures that can be invoked by generic object code.
*/
Tcl_ObjType tclByteCodeType = {
"bytecode", /* name */
FreeByteCodeInternalRep, /* freeIntRepProc */
DupByteCodeInternalRep, /* dupIntRepProc */
(Tcl_UpdateStringProc *) NULL, /* updateStringProc */
SetByteCodeFromAny /* setFromAnyProc */
};
/*
*----------------------------------------------------------------------
*
* TclSetByteCodeFromAny --
*
* Part of the bytecode Tcl object type implementation. Attempts to
* generate an byte code internal form for the Tcl object "objPtr" by
* compiling its string representation. This function also takes
* a hook procedure that will be invoked to perform any needed post
* processing on the compilation results before generating byte
* codes.
*
* Results:
* The return value is a standard Tcl object result. If an error occurs
* during compilation, an error message is left in the interpreter's
* result unless "interp" is NULL.
*
* Side effects:
* Frees the old internal representation. If no error occurs, then the
* compiled code is stored as "objPtr"s bytecode representation.
* Also, if debugging, initializes the "tcl_traceCompile" Tcl variable
* used to trace compilations.
*
*----------------------------------------------------------------------
*/
int
TclSetByteCodeFromAny(interp, objPtr, hookProc, clientData)
Tcl_Interp *interp; /* The interpreter for which the code is
* being compiled. Must not be NULL. */
Tcl_Obj *objPtr; /* The object to make a ByteCode object. */
CompileHookProc *hookProc; /* Procedure to invoke after compilation. */
ClientData clientData; /* Hook procedure private data. */
{
#ifdef TCL_COMPILE_DEBUG
Interp *iPtr = (Interp *) interp;
#endif /*TCL_COMPILE_DEBUG*/
CompileEnv compEnv; /* Compilation environment structure
* allocated in frame. */
LiteralTable *localTablePtr = &(compEnv.localLitTable);
register AuxData *auxDataPtr;
LiteralEntry *entryPtr;
register int i;
int length, result;
char *string;
#ifdef TCL_COMPILE_DEBUG
if (!traceInitialized) {
if (Tcl_LinkVar(interp, "tcl_traceCompile",
(char *) &tclTraceCompile, TCL_LINK_INT) != TCL_OK) {
Tcl_Panic("SetByteCodeFromAny: unable to create link for tcl_traceCompile variable");
}
traceInitialized = 1;
}
#endif
string = Tcl_GetStringFromObj(objPtr, &length);
TclInitCompileEnv(interp, &compEnv, string, length);
result = TclCompileScript(interp, string, length, &compEnv);
if (result == TCL_OK) {
/*
* Successful compilation. Add a "done" instruction at the end.
*/
TclEmitOpcode(INST_DONE, &compEnv);
/*
* Invoke the compilation hook procedure if one exists.
*/
if (hookProc) {
result = (*hookProc)(interp, &compEnv, clientData);
}
/*
* Change the object into a ByteCode object. Ownership of the literal
* objects and aux data items is given to the ByteCode object.
*/
#ifdef TCL_COMPILE_DEBUG
TclVerifyLocalLiteralTable(&compEnv);
#endif /*TCL_COMPILE_DEBUG*/
TclInitByteCodeObj(objPtr, &compEnv);
#ifdef TCL_COMPILE_DEBUG
if (tclTraceCompile >= 2) {
TclPrintByteCodeObj(interp, objPtr);
}
#endif /* TCL_COMPILE_DEBUG */
}
if (result != TCL_OK) {
/*
* Compilation errors.
*/
entryPtr = compEnv.literalArrayPtr;
for (i = 0; i < compEnv.literalArrayNext; i++) {
TclReleaseLiteral(interp, entryPtr->objPtr);
entryPtr++;
}
#ifdef TCL_COMPILE_DEBUG
TclVerifyGlobalLiteralTable(iPtr);
#endif /*TCL_COMPILE_DEBUG*/
auxDataPtr = compEnv.auxDataArrayPtr;
for (i = 0; i < compEnv.auxDataArrayNext; i++) {
if (auxDataPtr->type->freeProc != NULL) {
auxDataPtr->type->freeProc(auxDataPtr->clientData);
}
auxDataPtr++;
}
}
/*
* Free storage allocated during compilation.
*/
if (localTablePtr->buckets != localTablePtr->staticBuckets) {
ckfree((char *) localTablePtr->buckets);
}
TclFreeCompileEnv(&compEnv);
return result;
}
/*
*-----------------------------------------------------------------------
*
* SetByteCodeFromAny --
*
* Part of the bytecode Tcl object type implementation. Attempts to
* generate an byte code internal form for the Tcl object "objPtr" by
* compiling its string representation.
*
* Results:
* The return value is a standard Tcl object result. If an error occurs
* during compilation, an error message is left in the interpreter's
* result unless "interp" is NULL.
*
* Side effects:
* Frees the old internal representation. If no error occurs, then the
* compiled code is stored as "objPtr"s bytecode representation.
* Also, if debugging, initializes the "tcl_traceCompile" Tcl variable
* used to trace compilations.
*
*----------------------------------------------------------------------
*/
static int
SetByteCodeFromAny(interp, objPtr)
Tcl_Interp *interp; /* The interpreter for which the code is
* being compiled. Must not be NULL. */
Tcl_Obj *objPtr; /* The object to make a ByteCode object. */
{
return TclSetByteCodeFromAny(interp, objPtr,
(CompileHookProc *) NULL, (ClientData) NULL);
}
/*
*----------------------------------------------------------------------
*
* DupByteCodeInternalRep --
*
* Part of the bytecode Tcl object type implementation. However, it
* does not copy the internal representation of a bytecode Tcl_Obj, but
* instead leaves the new object untyped (with a NULL type pointer).
* Code will be compiled for the new object only if necessary.
*
* Results:
* None.
*
* Side effects:
* None.
*
*----------------------------------------------------------------------
*/
static void
DupByteCodeInternalRep(srcPtr, copyPtr)
Tcl_Obj *srcPtr; /* Object with internal rep to copy. */
Tcl_Obj *copyPtr; /* Object with internal rep to set. */
{
return;
}
/*
*----------------------------------------------------------------------
*
* FreeByteCodeInternalRep --
*
* Part of the bytecode Tcl object type implementation. Frees the
* storage associated with a bytecode object's internal representation
* unless its code is actively being executed.
*
* Results:
* None.
*
* Side effects:
* The bytecode object's internal rep is marked invalid and its
* code gets freed unless the code is actively being executed.
* In that case the cleanup is delayed until the last execution
* of the code completes.
*
*----------------------------------------------------------------------
*/
static void
FreeByteCodeInternalRep(objPtr)
register Tcl_Obj *objPtr; /* Object whose internal rep to free. */
{
register ByteCode *codePtr =
(ByteCode *) objPtr->internalRep.otherValuePtr;
codePtr->refCount--;
if (codePtr->refCount <= 0) {
TclCleanupByteCode(codePtr);
}
objPtr->typePtr = NULL;
objPtr->internalRep.otherValuePtr = NULL;
}
/*
*----------------------------------------------------------------------
*
* TclCleanupByteCode --
*
* This procedure does all the real work of freeing up a bytecode
* object's ByteCode structure. It's called only when the structure's
* reference count becomes zero.
*
* Results:
* None.
*
* Side effects:
* Frees objPtr's bytecode internal representation and sets its type
* and objPtr->internalRep.otherValuePtr NULL. Also releases its
* literals and frees its auxiliary data items.
*
*----------------------------------------------------------------------
*/
void
TclCleanupByteCode(codePtr)
register ByteCode *codePtr; /* Points to the ByteCode to free. */
{
Tcl_Interp *interp = (Tcl_Interp *) *codePtr->interpHandle;
int numLitObjects = codePtr->numLitObjects;
int numAuxDataItems = codePtr->numAuxDataItems;
register Tcl_Obj **objArrayPtr;
register AuxData *auxDataPtr;
int i;
#ifdef TCL_COMPILE_STATS
if (interp != NULL) {
ByteCodeStats *statsPtr;
Tcl_Time destroyTime;
int lifetimeSec, lifetimeMicroSec, log2;
statsPtr = &((Interp *) interp)->stats;
statsPtr->numByteCodesFreed++;
statsPtr->currentSrcBytes -= (double) codePtr->numSrcBytes;
statsPtr->currentByteCodeBytes -= (double) codePtr->structureSize;
statsPtr->currentInstBytes -= (double) codePtr->numCodeBytes;
statsPtr->currentLitBytes -=
(double) (codePtr->numLitObjects * sizeof(Tcl_Obj *));
statsPtr->currentExceptBytes -=
(double) (codePtr->numExceptRanges * sizeof(ExceptionRange));
statsPtr->currentAuxBytes -=
(double) (codePtr->numAuxDataItems * sizeof(AuxData));
statsPtr->currentCmdMapBytes -= (double) codePtr->numCmdLocBytes;
Tcl_GetTime(&destroyTime);
lifetimeSec = destroyTime.sec - codePtr->createTime.sec;
if (lifetimeSec > 2000) { /* avoid overflow */
lifetimeSec = 2000;
}
lifetimeMicroSec =
1000000*lifetimeSec + (destroyTime.usec - codePtr->createTime.usec);
log2 = TclLog2(lifetimeMicroSec);
if (log2 > 31) {
log2 = 31;
}
statsPtr->lifetimeCount[log2]++;
}
#endif /* TCL_COMPILE_STATS */
/*
* A single heap object holds the ByteCode structure and its code,
* object, command location, and auxiliary data arrays. This means we
* only need to 1) decrement the ref counts of the LiteralEntry's in
* its literal array, 2) call the free procs for the auxiliary data
* items, and 3) free the ByteCode structure's heap object.
*
* The case for TCL_BYTECODE_PRECOMPILED (precompiled ByteCodes,
* like those generated from tbcload) is special, as they doesn't
* make use of the global literal table. They instead maintain
* private references to their literals which must be decremented.
*/
if (codePtr->flags & TCL_BYTECODE_PRECOMPILED) {
register Tcl_Obj *objPtr;
objArrayPtr = codePtr->objArrayPtr;
for (i = 0; i < numLitObjects; i++) {
objPtr = *objArrayPtr;
if (objPtr) {
Tcl_DecrRefCount(objPtr);
}
objArrayPtr++;
}
codePtr->numLitObjects = 0;
} else if (interp != NULL) {
/*
* If the interp has already been freed, then Tcl will have already
* forcefully released all the literals used by ByteCodes compiled
* with respect to that interp.
*/
objArrayPtr = codePtr->objArrayPtr;
for (i = 0; i < numLitObjects; i++) {
/*
* TclReleaseLiteral sets a ByteCode's object array entry NULL to
* indicate that it has already freed the literal.
*/
if (*objArrayPtr != NULL) {
TclReleaseLiteral(interp, *objArrayPtr);
}
objArrayPtr++;
}
}
auxDataPtr = codePtr->auxDataArrayPtr;
for (i = 0; i < numAuxDataItems; i++) {
if (auxDataPtr->type->freeProc != NULL) {
(*auxDataPtr->type->freeProc)(auxDataPtr->clientData);
}
auxDataPtr++;
}
TclHandleRelease(codePtr->interpHandle);
ckfree((char *) codePtr);
}
/*
*----------------------------------------------------------------------
*
* TclInitCompileEnv --
*
* Initializes a CompileEnv compilation environment structure for the
* compilation of a string in an interpreter.
*
* Results:
* None.
*
* Side effects:
* The CompileEnv structure is initialized.
*
*----------------------------------------------------------------------
*/
void
TclInitCompileEnv(interp, envPtr, string, numBytes)
Tcl_Interp *interp; /* The interpreter for which a CompileEnv
* structure is initialized. */
register CompileEnv *envPtr; /* Points to the CompileEnv structure to
* initialize. */
char *string; /* The source string to be compiled. */
int numBytes; /* Number of bytes in source string. */
{
Interp *iPtr = (Interp *) interp;
envPtr->iPtr = iPtr;
envPtr->source = string;
envPtr->numSrcBytes = numBytes;
envPtr->procPtr = iPtr->compiledProcPtr;
envPtr->numCommands = 0;
envPtr->exceptDepth = 0;
envPtr->maxExceptDepth = 0;
envPtr->maxStackDepth = 0;
envPtr->currStackDepth = 0;
TclInitLiteralTable(&(envPtr->localLitTable));
envPtr->codeStart = envPtr->staticCodeSpace;
envPtr->codeNext = envPtr->codeStart;
envPtr->codeEnd = (envPtr->codeStart + COMPILEENV_INIT_CODE_BYTES);
envPtr->mallocedCodeArray = 0;
envPtr->literalArrayPtr = envPtr->staticLiteralSpace;
envPtr->literalArrayNext = 0;
envPtr->literalArrayEnd = COMPILEENV_INIT_NUM_OBJECTS;
envPtr->mallocedLiteralArray = 0;
envPtr->exceptArrayPtr = envPtr->staticExceptArraySpace;
envPtr->exceptArrayNext = 0;
envPtr->exceptArrayEnd = COMPILEENV_INIT_EXCEPT_RANGES;
envPtr->mallocedExceptArray = 0;
envPtr->cmdMapPtr = envPtr->staticCmdMapSpace;
envPtr->cmdMapEnd = COMPILEENV_INIT_CMD_MAP_SIZE;
envPtr->mallocedCmdMap = 0;
envPtr->auxDataArrayPtr = envPtr->staticAuxDataArraySpace;
envPtr->auxDataArrayNext = 0;
envPtr->auxDataArrayEnd = COMPILEENV_INIT_AUX_DATA_SIZE;
envPtr->mallocedAuxDataArray = 0;
}
/*
*----------------------------------------------------------------------
*
* TclFreeCompileEnv --
*
* Free the storage allocated in a CompileEnv compilation environment
* structure.
*
* Results:
* None.
*
* Side effects:
* Allocated storage in the CompileEnv structure is freed. Note that
* its local literal table is not deleted and its literal objects are
* not released. In addition, storage referenced by its auxiliary data
* items is not freed. This is done so that, when compilation is
* successful, "ownership" of these objects and aux data items is
* handed over to the corresponding ByteCode structure.
*
*----------------------------------------------------------------------
*/
void
TclFreeCompileEnv(envPtr)
register CompileEnv *envPtr; /* Points to the CompileEnv structure. */
{
if (envPtr->mallocedCodeArray) {
ckfree((char *) envPtr->codeStart);
}
if (envPtr->mallocedLiteralArray) {
ckfree((char *) envPtr->literalArrayPtr);
}
if (envPtr->mallocedExceptArray) {
ckfree((char *) envPtr->exceptArrayPtr);
}
if (envPtr->mallocedCmdMap) {
ckfree((char *) envPtr->cmdMapPtr);
}
if (envPtr->mallocedAuxDataArray) {
ckfree((char *) envPtr->auxDataArrayPtr);
}
}
/*
*----------------------------------------------------------------------
*
* TclWordKnownAtCompileTime --
*
* Test whether the value of a token is completely known at compile
* time.
*
* Results:
* Returns true if the tokenPtr argument points to a word value that
* is completely known at compile time. Generally, values that are
* known at compile time can be compiled to their values, while values
* that cannot be known until substitution at runtime must be compiled
* to bytecode instructions that perform that substitution. For several
* commands, whether or not arguments are known at compile time determine
* whether it is worthwhile to compile at all.
*
* Side effects:
* When returning true, appends the known value of the word to
* the unshared Tcl_Obj (*valuePtr), unless valuePtr is NULL.
*
*----------------------------------------------------------------------
*/
int
TclWordKnownAtCompileTime(tokenPtr, valuePtr)
Tcl_Token *tokenPtr; /* Points to Tcl_Token we should check */
Tcl_Obj *valuePtr; /* If not NULL, points to an unshared Tcl_Obj
* to which we should append the known value
* of the word. */
{
int numComponents = tokenPtr->numComponents;
Tcl_Obj *tempPtr = NULL;
if (tokenPtr->type == TCL_TOKEN_SIMPLE_WORD) {
if (valuePtr != NULL) {
Tcl_AppendToObj(valuePtr, tokenPtr->start, tokenPtr->size);
}
return 1;
}
if (tokenPtr->type != TCL_TOKEN_WORD) {
return 0;
}
tokenPtr++;
if (valuePtr != NULL) {
tempPtr = Tcl_NewObj();
Tcl_IncrRefCount(tempPtr);
}
while (numComponents--) {
switch (tokenPtr->type) {
case TCL_TOKEN_TEXT:
if (tempPtr != NULL) {
Tcl_AppendToObj(tempPtr, tokenPtr->start, tokenPtr->size);
}
continue;
case TCL_TOKEN_BS:
if (tempPtr != NULL) {
char utfBuf[TCL_UTF_MAX];
int length =
Tcl_UtfBackslash(tokenPtr->start, NULL, utfBuf);
Tcl_AppendToObj(tempPtr, utfBuf, length);
}
continue;
default:
if (tempPtr != NULL) {
Tcl_DecrRefCount(tempPtr);
}
return 0;
}
}
if (valuePtr != NULL) {
Tcl_AppendObjToObj(valuePtr, tempPtr);
Tcl_DecrRefCount(tempPtr);
}
return 1;
}
/*
*----------------------------------------------------------------------
*
* TclCompileScript --
*
* Compile a Tcl script in a string.
*
* Results:
* The return value is TCL_OK on a successful compilation and TCL_ERROR
* on failure. If TCL_ERROR is returned, then the interpreter's result
* contains an error message.
*
* Side effects:
* Adds instructions to envPtr to evaluate the script at runtime.
*
*----------------------------------------------------------------------
*/
int
TclCompileScript(interp, script, numBytes, envPtr)
Tcl_Interp *interp; /* Used for error and status reporting.
* Also serves as context for finding and
* compiling commands. May not be NULL. */
CONST char *script; /* The source script to compile. */
int numBytes; /* Number of bytes in script. If < 0, the
* script consists of all bytes up to the
* first null character. */
CompileEnv *envPtr; /* Holds resulting instructions. */
{
Interp *iPtr = (Interp *) interp;
Tcl_Parse parse;
int lastTopLevelCmdIndex = -1;
/* Index of most recent toplevel command in
* the command location table. Initialized
* to avoid compiler warning. */
int startCodeOffset = -1; /* Offset of first byte of current command's
* code. Init. to avoid compiler warning. */
unsigned char *entryCodeNext = envPtr->codeNext;
CONST char *p, *next;
Namespace *cmdNsPtr;
Command *cmdPtr;
Tcl_Token *tokenPtr;
int bytesLeft, isFirstCmd, gotParse, wordIdx, currCmdIndex;
int commandLength, objIndex, code;
Tcl_DString ds;
Tcl_DStringInit(&ds);
if (numBytes < 0) {
numBytes = strlen(script);
}
Tcl_ResetResult(interp);
isFirstCmd = 1;
/*
* Each iteration through the following loop compiles the next
* command from the script.
*/
p = script;
bytesLeft = numBytes;
gotParse = 0;
do {
if (Tcl_ParseCommand(interp, p, bytesLeft, 0, &parse) != TCL_OK) {
code = TCL_ERROR;
goto error;
}
gotParse = 1;
if (parse.numWords > 0) {
int expand = 0;
unsigned char delta = 1;
Tcl_DString deltaList;
/*
* If not the first command, pop the previous command's result
* and, if we're compiling a top level command, update the last
* command's code size to account for the pop instruction.
*/
if (!isFirstCmd) {
TclEmitOpcode(INST_POP, envPtr);
envPtr->cmdMapPtr[lastTopLevelCmdIndex].numCodeBytes =
(envPtr->codeNext - envPtr->codeStart) - startCodeOffset;
}
/*
* Determine the actual length of the command.
*/
commandLength = parse.commandSize;
if (parse.term == parse.commandStart + commandLength - 1) {
/*
* The command terminator character (such as ; or ]) is
* the last character in the parsed command. Reduce the
* length by one so that the trace message doesn't include
* the terminator character.
*/
commandLength -= 1;
}
#ifdef TCL_COMPILE_DEBUG
/*
* If tracing, print a line for each top level command compiled.
*/
if ((tclTraceCompile >= 1) && (envPtr->procPtr == NULL)) {
fprintf(stdout, " Compiling: ");
TclPrintSource(stdout, parse.commandStart,
TclMin(commandLength, 55));
fprintf(stdout, "\n");
}
#endif
/*
* Check whether expansion has been requested for any of
* the words
*/
for (wordIdx = 0, tokenPtr = parse.tokenPtr;
wordIdx < parse.numWords;
wordIdx++, tokenPtr += (tokenPtr->numComponents + 1)) {
if (tokenPtr->type == TCL_TOKEN_EXPAND_WORD) {
expand = 1;
Tcl_DStringInit(&deltaList);
break;
}
}
envPtr->numCommands++;
currCmdIndex = (envPtr->numCommands - 1);
lastTopLevelCmdIndex = currCmdIndex;
startCodeOffset = (envPtr->codeNext - envPtr->codeStart);
EnterCmdStartData(envPtr, currCmdIndex,
(parse.commandStart - envPtr->source), startCodeOffset);
/*
* Each iteration of the following loop compiles one word
* from the command.
*/
for (wordIdx = 0, tokenPtr = parse.tokenPtr;
wordIdx < parse.numWords; delta++, wordIdx++,
tokenPtr += (tokenPtr->numComponents + 1)) {
if (expand && (delta == 255)
&& (tokenPtr->type != TCL_TOKEN_EXPAND_WORD)) {
/*
* Push an empty list for expansion so our delta
* between expanded words doesn't overflow a byte
*/
objIndex = TclRegisterNewLiteral(envPtr, "", 0);
TclEmitPush(objIndex, envPtr);
Tcl_DStringAppend(&deltaList, (CONST char *)&delta, 1);
delta = 1;
}
if (tokenPtr->type == TCL_TOKEN_SIMPLE_WORD) {
/*
* If this is the first word and the command has a
* compile procedure, let it compile the command.
*/
if ((wordIdx == 0) && !expand) {
if (envPtr->procPtr != NULL) {
cmdNsPtr = envPtr->procPtr->cmdPtr->nsPtr;
} else {
cmdNsPtr = NULL; /* use current NS */
}
/*
* We copy the string before trying to find the command
* by name. We used to modify the string in place, but
* this is not safe because the name resolution
* handlers could have side effects that rely on the
* unmodified string.
*/
Tcl_DStringSetLength(&ds, 0);
Tcl_DStringAppend(&ds, tokenPtr[1].start,
tokenPtr[1].size);
cmdPtr = (Command *) Tcl_FindCommand(interp,
Tcl_DStringValue(&ds),
(Tcl_Namespace *) cmdNsPtr, /*flags*/ 0);
if ((cmdPtr != NULL)
&& (cmdPtr->compileProc != NULL)
&& !(cmdPtr->flags & CMD_HAS_EXEC_TRACES)
&& !(iPtr->flags & DONT_COMPILE_CMDS_INLINE)) {
int savedNumCmds = envPtr->numCommands;
unsigned int savedCodeNext =
envPtr->codeNext - envPtr->codeStart;
/*
* Mark the start of the command; the proper
* bytecode length will be updated later.
*/
TclEmitInstInt4(INST_START_CMD, 0, envPtr);
code = (*(cmdPtr->compileProc))(interp, &parse,
envPtr);
if (code == TCL_OK) {
/*
* Fix the bytecode length.
*/
unsigned char *fixPtr = envPtr->codeStart + savedCodeNext + 1;
unsigned int fixLen = envPtr->codeNext - envPtr->codeStart
- savedCodeNext;
TclStoreInt4AtPtr(fixLen, fixPtr);
goto finishCommand;
} else if (code == TCL_OUT_LINE_COMPILE) {
/*
* Restore numCommands and codeNext to their correct
* values, removing any commands compiled before
* TCL_OUT_LINE_COMPILE [Bugs 705406 and 735055]
*/
envPtr->numCommands = savedNumCmds;
envPtr->codeNext = envPtr->codeStart + savedCodeNext;
} else { /* an error */
/*
* There was a compilation error, the last
* command did not get compiled into (*envPtr).
* Decrement the number of commands
* claimed to be in (*envPtr).
*/
envPtr->numCommands--;
goto log;
}
}
/*
* No compile procedure so push the word. If the
* command was found, push a CmdName object to
* reduce runtime lookups.
*/
objIndex = TclRegisterNewLiteral(envPtr,
tokenPtr[1].start, tokenPtr[1].size);
if (cmdPtr != NULL) {
TclSetCmdNameObj(interp,
envPtr->literalArrayPtr[objIndex].objPtr,
cmdPtr);
}
} else {
objIndex = TclRegisterNewLiteral(envPtr,
tokenPtr[1].start, tokenPtr[1].size);
}
TclEmitPush(objIndex, envPtr);
} else {
/*
* The word is not a simple string of characters.
*/
code = TclCompileTokens(interp, tokenPtr+1,
tokenPtr->numComponents, envPtr);
if (code != TCL_OK) {
goto log;
}
}
if (tokenPtr->type == TCL_TOKEN_EXPAND_WORD) {
if ((tokenPtr->numComponents == 1)
&& (tokenPtr[1].type == TCL_TOKEN_TEXT)) {
/*
* The value to be expanded is fully known
* now at compile time. We can check list
* validity, so we do not have to do so at
* runtime
*/
int length;
Tcl_Obj *testObj = Tcl_NewStringObj(tokenPtr[1].start,
tokenPtr[1].size);
if (TCL_OK !=
Tcl_ListObjLength(NULL, testObj, &length)) {
/*
* Not a valid list, so emit instructions to
* test list validity (and fail) at runtime
*/
TclEmitOpcode(INST_LIST_VERIFY, envPtr);
}
} else {
/*
* Value to expand unknown until runtime, so
* include a runtime check for valid list
*/
TclEmitOpcode(INST_LIST_VERIFY, envPtr);
}
Tcl_DStringAppend(&deltaList, (char *)&delta, 1);
delta = 0;
}
}
/*
* Emit an invoke instruction for the command. We skip this
* if a compile procedure was found for the command.
*/
if (expand) {
TclEmitInstInt4(INST_INVOKE_EXP, wordIdx, envPtr);
TclEmitImmDeltaList1(&deltaList, envPtr);
Tcl_DStringFree(&deltaList);
} else if (wordIdx > 0) {
if (wordIdx <= 255) {
TclEmitInstInt1(INST_INVOKE_STK1, wordIdx, envPtr);
} else {
TclEmitInstInt4(INST_INVOKE_STK4, wordIdx, envPtr);
}
}
/*
* Update the compilation environment structure and record the
* offsets of the source and code for the command.
*/
finishCommand:
EnterCmdExtentData(envPtr, currCmdIndex, commandLength,
(envPtr->codeNext-envPtr->codeStart) - startCodeOffset);
isFirstCmd = 0;
} /* end if parse.numWords > 0 */
/*
* Advance to the next command in the script.
*/
next = parse.commandStart + parse.commandSize;
bytesLeft -= (next - p);
p = next;
Tcl_FreeParse(&parse);
gotParse = 0;
} while (bytesLeft > 0);
/*
* If the source script yielded no instructions (e.g., if it was empty),
* push an empty string as the command's result.
*/
if (envPtr->codeNext == entryCodeNext) {
TclEmitPush(TclRegisterLiteral(envPtr, "", 0, /*onHeap*/ 0),
envPtr);
}
envPtr->numSrcBytes = (p - script);
Tcl_DStringFree(&ds);
return TCL_OK;
error:
/*
* Generate various pieces of error information, such as the line
* number where the error occurred and information to add to the
* errorInfo variable. Then free resources that had been allocated
* to the command.
*/
commandLength = parse.commandSize;
if (parse.term == parse.commandStart + commandLength - 1) {
/*
* The terminator character (such as ; or ]) of the command where
* the error occurred is the last character in the parsed command.
* Reduce the length by one so that the error message doesn't
* include the terminator character.
*/
commandLength -= 1;
}
log:
LogCompilationInfo(interp, script, parse.commandStart, commandLength);
if (gotParse) {
Tcl_FreeParse(&parse);
}
envPtr->numSrcBytes = (p - script);
Tcl_DStringFree(&ds);
return code;
}
/*
*----------------------------------------------------------------------
*
* TclCompileTokens --
*
* Given an array of tokens parsed from a Tcl command (e.g., the tokens
* that make up a word) this procedure emits instructions to evaluate
* the tokens and concatenate their values to form a single result
* value on the interpreter's runtime evaluation stack.
*
* Results:
* The return value is a standard Tcl result. If an error occurs, an
* error message is left in the interpreter's result.
*
* Side effects:
* Instructions are added to envPtr to push and evaluate the tokens
* at runtime.
*
*----------------------------------------------------------------------
*/
int
TclCompileTokens(interp, tokenPtr, count, envPtr)
Tcl_Interp *interp; /* Used for error and status reporting. */
Tcl_Token *tokenPtr; /* Pointer to first in an array of tokens
* to compile. */
int count; /* Number of tokens to consider at tokenPtr.
* Must be at least 1. */
CompileEnv *envPtr; /* Holds the resulting instructions. */
{
Tcl_DString textBuffer; /* Holds concatenated chars from adjacent
* TCL_TOKEN_TEXT, TCL_TOKEN_BS tokens. */
char buffer[TCL_UTF_MAX];
CONST char *name, *p;
int numObjsToConcat, nameBytes, localVarName, localVar;
int length, i, code;
unsigned char *entryCodeNext = envPtr->codeNext;
Tcl_DStringInit(&textBuffer);
numObjsToConcat = 0;
for ( ; count > 0; count--, tokenPtr++) {
switch (tokenPtr->type) {
case TCL_TOKEN_TEXT:
Tcl_DStringAppend(&textBuffer, tokenPtr->start,
tokenPtr->size);
break;
case TCL_TOKEN_BS:
length = Tcl_UtfBackslash(tokenPtr->start, (int *) NULL,
buffer);
Tcl_DStringAppend(&textBuffer, buffer, length);
break;
case TCL_TOKEN_COMMAND:
/*
* Push any accumulated chars appearing before the command.
*/
if (Tcl_DStringLength(&textBuffer) > 0) {
int literal;
literal = TclRegisterLiteral(envPtr,
Tcl_DStringValue(&textBuffer),
Tcl_DStringLength(&textBuffer), /*onHeap*/ 0);
TclEmitPush(literal, envPtr);
numObjsToConcat++;
Tcl_DStringFree(&textBuffer);
}
code = TclCompileScript(interp, tokenPtr->start+1,
tokenPtr->size-2, envPtr);
if (code != TCL_OK) {
goto error;
}
numObjsToConcat++;
break;
case TCL_TOKEN_VARIABLE:
/*
* Push any accumulated chars appearing before the $<var>.
*/
if (Tcl_DStringLength(&textBuffer) > 0) {
int literal;
literal = TclRegisterLiteral(envPtr,
Tcl_DStringValue(&textBuffer),
Tcl_DStringLength(&textBuffer), /*onHeap*/ 0);
TclEmitPush(literal, envPtr);
numObjsToConcat++;
Tcl_DStringFree(&textBuffer);
}
/*
* Determine how the variable name should be handled: if it contains
* any namespace qualifiers it is not a local variable (localVarName=-1);
* if it looks like an array element and the token has a single component,
* it should not be created here [Bug 569438] (localVarName=0); otherwise,
* the local variable can safely be created (localVarName=1).
*/
name = tokenPtr[1].start;
nameBytes = tokenPtr[1].size;
localVarName = -1;
if (envPtr->procPtr != NULL) {
localVarName = 1;
for (i = 0, p = name; i < nameBytes; i++, p++) {
if ((*p == ':') && (i < (nameBytes-1))
&& (*(p+1) == ':')) {
localVarName = -1;
break;
} else if ((*p == '(')
&& (tokenPtr->numComponents == 1)
&& (*(name + nameBytes - 1) == ')')) {
localVarName = 0;
break;
}
}
}
/*
* Either push the variable's name, or find its index in
* the array of local variables in a procedure frame.
*/
localVar = -1;
if (localVarName != -1) {
localVar = TclFindCompiledLocal(name, nameBytes,
localVarName, /*flags*/ 0, envPtr->procPtr);
}
if (localVar < 0) {
TclEmitPush(TclRegisterNewLiteral(envPtr, name, nameBytes),
envPtr);
}
/*
* Emit instructions to load the variable.
*/
if (tokenPtr->numComponents == 1) {
if (localVar < 0) {
TclEmitOpcode(INST_LOAD_SCALAR_STK, envPtr);
} else if (localVar <= 255) {
TclEmitInstInt1(INST_LOAD_SCALAR1, localVar,
envPtr);
} else {
TclEmitInstInt4(INST_LOAD_SCALAR4, localVar,
envPtr);
}
} else {
code = TclCompileTokens(interp, tokenPtr+2,
tokenPtr->numComponents-1, envPtr);
if (code != TCL_OK) {
char errorBuffer[150];
sprintf(errorBuffer,
"\n (parsing index for array \"%.*s\")",
((nameBytes > 100)? 100 : nameBytes), name);
Tcl_AddObjErrorInfo(interp, errorBuffer, -1);
goto error;
}
if (localVar < 0) {
TclEmitOpcode(INST_LOAD_ARRAY_STK, envPtr);
} else if (localVar <= 255) {
TclEmitInstInt1(INST_LOAD_ARRAY1, localVar,
envPtr);
} else {
TclEmitInstInt4(INST_LOAD_ARRAY4, localVar,
envPtr);
}
}
numObjsToConcat++;
count -= tokenPtr->numComponents;
tokenPtr += tokenPtr->numComponents;
break;
default:
Tcl_Panic("Unexpected token type in TclCompileTokens");
}
}
/*
* Push any accumulated characters appearing at the end.
*/
if (Tcl_DStringLength(&textBuffer) > 0) {
int literal;
literal = TclRegisterLiteral(envPtr, Tcl_DStringValue(&textBuffer),
Tcl_DStringLength(&textBuffer), /*onHeap*/ 0);
TclEmitPush(literal, envPtr);
numObjsToConcat++;
}
/*
* If necessary, concatenate the parts of the word.
*/
while (numObjsToConcat > 255) {
TclEmitInstInt1(INST_CONCAT1, 255, envPtr);
numObjsToConcat -= 254; /* concat pushes 1 obj, the result */
}
if (numObjsToConcat > 1) {
TclEmitInstInt1(INST_CONCAT1, numObjsToConcat, envPtr);
}
/*
* If the tokens yielded no instructions, push an empty string.
*/
if (envPtr->codeNext == entryCodeNext) {
TclEmitPush(TclRegisterLiteral(envPtr, "", 0, /*onHeap*/ 0),
envPtr);
}
Tcl_DStringFree(&textBuffer);
return TCL_OK;
error:
Tcl_DStringFree(&textBuffer);
return code;
}
/*
*----------------------------------------------------------------------
*
* TclCompileCmdWord --
*
* Given an array of parse tokens for a word containing one or more Tcl
* commands, emit inline instructions to execute them. This procedure
* differs from TclCompileTokens in that a simple word such as a loop
* body enclosed in braces is not just pushed as a string, but is
* itself parsed into tokens and compiled.
*
* Results:
* The return value is a standard Tcl result. If an error occurs, an
* error message is left in the interpreter's result.
*
* Side effects:
* Instructions are added to envPtr to execute the tokens at runtime.
*
*----------------------------------------------------------------------
*/
int
TclCompileCmdWord(interp, tokenPtr, count, envPtr)
Tcl_Interp *interp; /* Used for error and status reporting. */
Tcl_Token *tokenPtr; /* Pointer to first in an array of tokens
* for a command word to compile inline. */
int count; /* Number of tokens to consider at tokenPtr.
* Must be at least 1. */
CompileEnv *envPtr; /* Holds the resulting instructions. */
{
int code;
/*
* Handle the common case: if there is a single text token, compile it
* into an inline sequence of instructions.
*/
if ((count == 1) && (tokenPtr->type == TCL_TOKEN_TEXT)) {
code = TclCompileScript(interp, tokenPtr->start, tokenPtr->size, envPtr);
return code;
}
/*
* Multiple tokens or the single token involves substitutions. Emit
* instructions to invoke the eval command procedure at runtime on the
* result of evaluating the tokens.
*/
code = TclCompileTokens(interp, tokenPtr, count, envPtr);
if (code != TCL_OK) {
return code;
}
TclEmitOpcode(INST_EVAL_STK, envPtr);
return TCL_OK;
}
/*
*----------------------------------------------------------------------
*
* TclCompileExprWords --
*
* Given an array of parse tokens representing one or more words that
* contain a Tcl expression, emit inline instructions to execute the
* expression. This procedure differs from TclCompileExpr in that it
* supports Tcl's two-level substitution semantics for expressions that
* appear as command words.
*
* Results:
* The return value is a standard Tcl result. If an error occurs, an
* error message is left in the interpreter's result.
*
* Side effects:
* Instructions are added to envPtr to execute the expression.
*
*----------------------------------------------------------------------
*/
int
TclCompileExprWords(interp, tokenPtr, numWords, envPtr)
Tcl_Interp *interp; /* Used for error and status reporting. */
Tcl_Token *tokenPtr; /* Points to first in an array of word
* tokens tokens for the expression to
* compile inline. */
int numWords; /* Number of word tokens starting at
* tokenPtr. Must be at least 1. Each word
* token contains one or more subtokens. */
CompileEnv *envPtr; /* Holds the resulting instructions. */
{
Tcl_Token *wordPtr;
int numBytes, i, code;
CONST char *script;
code = TCL_OK;
/*
* If the expression is a single word that doesn't require
* substitutions, just compile its string into inline instructions.
*/
if ((numWords == 1) && (tokenPtr->type == TCL_TOKEN_SIMPLE_WORD)) {
script = tokenPtr[1].start;
numBytes = tokenPtr[1].size;
code = TclCompileExpr(interp, script, numBytes, envPtr);
return code;
}
/*
* Emit code to call the expr command proc at runtime. Concatenate the
* (already substituted once) expr tokens with a space between each.
*/
wordPtr = tokenPtr;
for (i = 0; i < numWords; i++) {
code = TclCompileTokens(interp, wordPtr+1, wordPtr->numComponents,
envPtr);
if (code != TCL_OK) {
break;
}
if (i < (numWords - 1)) {
TclEmitPush(TclRegisterLiteral(envPtr, " ", 1, /*onHeap*/ 0),
envPtr);
}
wordPtr += (wordPtr->numComponents + 1);
}
if (code == TCL_OK) {
int concatItems = 2*numWords - 1;
while (concatItems > 255) {
TclEmitInstInt1(INST_CONCAT1, 255, envPtr);
concatItems -= 254;
}
if (concatItems > 1) {
TclEmitInstInt1(INST_CONCAT1, concatItems, envPtr);
}
TclEmitOpcode(INST_EXPR_STK, envPtr);
}
return code;
}
/*
*----------------------------------------------------------------------
*
* TclInitByteCodeObj --
*
* Create a ByteCode structure and initialize it from a CompileEnv
* compilation environment structure. The ByteCode structure is
* smaller and contains just that information needed to execute
* the bytecode instructions resulting from compiling a Tcl script.
* The resulting structure is placed in the specified object.
*
* Results:
* A newly constructed ByteCode object is stored in the internal
* representation of the objPtr.
*
* Side effects:
* A single heap object is allocated to hold the new ByteCode structure
* and its code, object, command location, and aux data arrays. Note
* that "ownership" (i.e., the pointers to) the Tcl objects and aux
* data items will be handed over to the new ByteCode structure from
* the CompileEnv structure.
*
*----------------------------------------------------------------------
*/
void
TclInitByteCodeObj(objPtr, envPtr)
Tcl_Obj *objPtr; /* Points object that should be
* initialized, and whose string rep
* contains the source code. */
register CompileEnv *envPtr; /* Points to the CompileEnv structure from
* which to create a ByteCode structure. */
{
register ByteCode *codePtr;
size_t codeBytes, objArrayBytes, exceptArrayBytes, cmdLocBytes;
size_t auxDataArrayBytes, structureSize;
register unsigned char *p;
unsigned char *nextPtr;
int numLitObjects = envPtr->literalArrayNext;
Namespace *namespacePtr;
int i;
Interp *iPtr;
iPtr = envPtr->iPtr;
codeBytes = (envPtr->codeNext - envPtr->codeStart);
objArrayBytes = (envPtr->literalArrayNext * sizeof(Tcl_Obj *));
exceptArrayBytes = (envPtr->exceptArrayNext * sizeof(ExceptionRange));
auxDataArrayBytes = (envPtr->auxDataArrayNext * sizeof(AuxData));
cmdLocBytes = GetCmdLocEncodingSize(envPtr);
/*
* Compute the total number of bytes needed for this bytecode.
*/
structureSize = sizeof(ByteCode);
structureSize += TCL_ALIGN(codeBytes); /* align object array */
structureSize += TCL_ALIGN(objArrayBytes); /* align exc range arr */
structureSize += TCL_ALIGN(exceptArrayBytes); /* align AuxData array */
structureSize += auxDataArrayBytes;
structureSize += cmdLocBytes;
if (envPtr->iPtr->varFramePtr != NULL) {
namespacePtr = envPtr->iPtr->varFramePtr->nsPtr;
} else {
namespacePtr = envPtr->iPtr->globalNsPtr;
}
p = (unsigned char *) ckalloc((size_t) structureSize);
codePtr = (ByteCode *) p;
codePtr->interpHandle = TclHandlePreserve(iPtr->handle);
codePtr->compileEpoch = iPtr->compileEpoch;
codePtr->nsPtr = namespacePtr;
codePtr->nsEpoch = namespacePtr->resolverEpoch;
codePtr->refCount = 1;
codePtr->flags = 0;
codePtr->source = envPtr->source;
codePtr->procPtr = envPtr->procPtr;
codePtr->numCommands = envPtr->numCommands;
codePtr->numSrcBytes = envPtr->numSrcBytes;
codePtr->numCodeBytes = codeBytes;
codePtr->numLitObjects = numLitObjects;
codePtr->numExceptRanges = envPtr->exceptArrayNext;
codePtr->numAuxDataItems = envPtr->auxDataArrayNext;
codePtr->numCmdLocBytes = cmdLocBytes;
codePtr->maxExceptDepth = envPtr->maxExceptDepth;
codePtr->maxStackDepth = envPtr->maxStackDepth;
p += sizeof(ByteCode);
codePtr->codeStart = p;
memcpy((VOID *) p, (VOID *) envPtr->codeStart, (size_t) codeBytes);
p += TCL_ALIGN(codeBytes); /* align object array */
codePtr->objArrayPtr = (Tcl_Obj **) p;
for (i = 0; i < numLitObjects; i++) {
codePtr->objArrayPtr[i] = envPtr->literalArrayPtr[i].objPtr;
}
p += TCL_ALIGN(objArrayBytes); /* align exception range array */
if (exceptArrayBytes > 0) {
codePtr->exceptArrayPtr = (ExceptionRange *) p;
memcpy((VOID *) p, (VOID *) envPtr->exceptArrayPtr,
(size_t) exceptArrayBytes);
} else {
codePtr->exceptArrayPtr = NULL;
}
p += TCL_ALIGN(exceptArrayBytes); /* align AuxData array */
if (auxDataArrayBytes > 0) {
codePtr->auxDataArrayPtr = (AuxData *) p;
memcpy((VOID *) p, (VOID *) envPtr->auxDataArrayPtr,
(size_t) auxDataArrayBytes);
} else {
codePtr->auxDataArrayPtr = NULL;
}
p += auxDataArrayBytes;
nextPtr = EncodeCmdLocMap(envPtr, codePtr, (unsigned char *) p);
#ifdef TCL_COMPILE_DEBUG
if (((size_t)(nextPtr - p)) != cmdLocBytes) {
Tcl_Panic("TclInitByteCodeObj: encoded cmd location bytes %d != expected size %d\n", (nextPtr - p), cmdLocBytes);
}
#endif
/*
* Record various compilation-related statistics about the new ByteCode
* structure. Don't include overhead for statistics-related fields.
*/
#ifdef TCL_COMPILE_STATS
codePtr->structureSize = structureSize
- (sizeof(size_t) + sizeof(Tcl_Time));
Tcl_GetTime(&(codePtr->createTime));
RecordByteCodeStats(codePtr);
#endif /* TCL_COMPILE_STATS */
/*
* Free the old internal rep then convert the object to a
* bytecode object by making its internal rep point to the just
* compiled ByteCode.
*/
if ((objPtr->typePtr != NULL) &&
(objPtr->typePtr->freeIntRepProc != NULL)) {
(*objPtr->typePtr->freeIntRepProc)(objPtr);
}
objPtr->internalRep.otherValuePtr = (VOID *) codePtr;
objPtr->typePtr = &tclByteCodeType;
}
/*
*----------------------------------------------------------------------
*
* LogCompilationInfo --
*
* This procedure is invoked after an error occurs during compilation.
* It adds information to the "errorInfo" variable to describe the
* command that was being compiled when the error occurred.
*
* Results:
* None.
*
* Side effects:
* Information about the command is added to errorInfo and the
* line number stored internally in the interpreter is set. If this
* is the first call to this procedure or Tcl_AddObjErrorInfo since
* an error occurred, then old information in errorInfo is
* deleted.
*
*----------------------------------------------------------------------
*/
static void
LogCompilationInfo(interp, script, command, length)
Tcl_Interp *interp; /* Interpreter in which to log the
* information. */
CONST char *script; /* First character in script containing
* command (must be <= command). */
CONST char *command; /* First character in command that
* generated the error. */
int length; /* Number of bytes in command (-1 means
* use all bytes up to first null byte). */
{
register CONST char *p;
Interp *iPtr = (Interp *) interp;
Tcl_Obj *message;
if (iPtr->flags & ERR_ALREADY_LOGGED) {
/*
* Someone else has already logged error information for this
* command; we shouldn't add anything more.
*/
return;
}
/*
* Compute the line number where the error occurred.
*/
iPtr->errorLine = 1;
for (p = script; p != command; p++) {
if (*p == '\n') {
iPtr->errorLine++;
}
}
message = Tcl_NewStringObj("\n while compiling\n\"", -1);
Tcl_IncrRefCount(message);
TclAppendLimitedToObj(message, command, length, 153, NULL);
Tcl_AppendToObj(message, "\"", -1);
TclAppendObjToErrorInfo(interp, message);
Tcl_DecrRefCount(message);
}
/*
*----------------------------------------------------------------------
*
* TclFindCompiledLocal --
*
* This procedure is called at compile time to look up and optionally
* allocate an entry ("slot") for a variable in a procedure's array of
* local variables. If the variable's name is NULL, a new temporary
* variable is always created. (Such temporary variables can only be
* referenced using their slot index.)
*
* Results:
* If create is 0 and the name is non-NULL, then if the variable is
* found, the index of its entry in the procedure's array of local
* variables is returned; otherwise -1 is returned. If name is NULL,
* the index of a new temporary variable is returned. Finally, if
* create is 1 and name is non-NULL, the index of a new entry is
* returned.
*
* Side effects:
* Creates and registers a new local variable if create is 1 and
* the variable is unknown, or if the name is NULL.
*
*----------------------------------------------------------------------
*/
int
TclFindCompiledLocal(name, nameBytes, create, flags, procPtr)
register CONST char *name; /* Points to first character of the name of
* a scalar or array variable. If NULL, a
* temporary var should be created. */
int nameBytes; /* Number of bytes in the name. */
int create; /* If 1, allocate a local frame entry for
* the variable if it is new. */
int flags; /* Flag bits for the compiled local if
* created. Only VAR_SCALAR, VAR_ARRAY, and
* VAR_LINK make sense. */
register Proc *procPtr; /* Points to structure describing procedure
* containing the variable reference. */
{
register CompiledLocal *localPtr;
int localVar = -1;
register int i;
/*
* If not creating a temporary, does a local variable of the specified
* name already exist?
*/
if (name != NULL) {
int localCt = procPtr->numCompiledLocals;
localPtr = procPtr->firstLocalPtr;
for (i = 0; i < localCt; i++) {
if (!TclIsVarTemporary(localPtr)) {
char *localName = localPtr->name;
if ((nameBytes == localPtr->nameLength)
&& (strncmp(name, localName, (unsigned) nameBytes) == 0)) {
return i;
}
}
localPtr = localPtr->nextPtr;
}
}
/*
* Create a new variable if appropriate.
*/
if (create || (name == NULL)) {
localVar = procPtr->numCompiledLocals;
localPtr = (CompiledLocal *) ckalloc((unsigned)
(sizeof(CompiledLocal) - sizeof(localPtr->name)
+ nameBytes+1));
if (procPtr->firstLocalPtr == NULL) {
procPtr->firstLocalPtr = procPtr->lastLocalPtr = localPtr;
} else {
procPtr->lastLocalPtr->nextPtr = localPtr;
procPtr->lastLocalPtr = localPtr;
}
localPtr->nextPtr = NULL;
localPtr->nameLength = nameBytes;
localPtr->frameIndex = localVar;
localPtr->flags = flags | VAR_UNDEFINED;
if (name == NULL) {
localPtr->flags |= VAR_TEMPORARY;
}
localPtr->defValuePtr = NULL;
localPtr->resolveInfo = NULL;
if (name != NULL) {
memcpy((VOID *) localPtr->name, (VOID *) name,
(size_t) nameBytes);
}
localPtr->name[nameBytes] = '\0';
procPtr->numCompiledLocals++;
}
return localVar;
}
/*
*----------------------------------------------------------------------
*
* TclInitCompiledLocals --
*
* This routine is invoked in order to initialize the compiled
* locals table for a new call frame.
*
* Results:
* None.
*
* Side effects:
* May invoke various name resolvers in order to determine which
* variables are being referenced at runtime.
*
*----------------------------------------------------------------------
*/
void
TclInitCompiledLocals(interp, framePtr, nsPtr)
Tcl_Interp *interp; /* Current interpreter. */
CallFrame *framePtr; /* Call frame to initialize. */
Namespace *nsPtr; /* Pointer to current namespace. */
{
register CompiledLocal *localPtr;
Interp *iPtr = (Interp*) interp;
Tcl_ResolvedVarInfo *vinfo, *resVarInfo;
Var *varPtr = framePtr->compiledLocals;
Var *resolvedVarPtr;
ResolverScheme *resPtr;
int result;
/*
* Initialize the array of local variables stored in the call frame.
* Some variables may have special resolution rules. In that case,
* we call their "resolver" procs to get our hands on the variable,
* and we make the compiled local a link to the real variable.
*/
for (localPtr = framePtr->procPtr->firstLocalPtr;
localPtr != NULL;
localPtr = localPtr->nextPtr) {
/*
* Check to see if this local is affected by namespace or
* interp resolvers. The resolver to use is cached for the
* next invocation of the procedure.
*/
if (!(localPtr->flags & (VAR_ARGUMENT|VAR_TEMPORARY|VAR_RESOLVED))
&& (nsPtr->compiledVarResProc || iPtr->resolverPtr)) {
resPtr = iPtr->resolverPtr;
if (nsPtr->compiledVarResProc) {
result = (*nsPtr->compiledVarResProc)(nsPtr->interp,
localPtr->name, localPtr->nameLength,
(Tcl_Namespace *) nsPtr, &vinfo);
} else {
result = TCL_CONTINUE;
}
while ((result == TCL_CONTINUE) && resPtr) {
if (resPtr->compiledVarResProc) {
result = (*resPtr->compiledVarResProc)(nsPtr->interp,
localPtr->name, localPtr->nameLength,
(Tcl_Namespace *) nsPtr, &vinfo);
}
resPtr = resPtr->nextPtr;
}
if (result == TCL_OK) {
localPtr->resolveInfo = vinfo;
localPtr->flags |= VAR_RESOLVED;
}
}
/*
* Now invoke the resolvers to determine the exact variables that
* should be used.
*/
resVarInfo = localPtr->resolveInfo;
resolvedVarPtr = NULL;
if (resVarInfo && resVarInfo->fetchProc) {
resolvedVarPtr = (Var*) (*resVarInfo->fetchProc)(interp,
resVarInfo);
}
if (resolvedVarPtr) {
varPtr->name = localPtr->name; /* will be just '\0' if temp var */
varPtr->nsPtr = NULL;
varPtr->hPtr = NULL;
varPtr->refCount = 0;
varPtr->tracePtr = NULL;
varPtr->searchPtr = NULL;
varPtr->flags = 0;
TclSetVarLink(varPtr);
varPtr->value.linkPtr = resolvedVarPtr;
resolvedVarPtr->refCount++;
} else {
varPtr->value.objPtr = NULL;
varPtr->name = localPtr->name; /* will be just '\0' if temp var */
varPtr->nsPtr = NULL;
varPtr->hPtr = NULL;
varPtr->refCount = 0;
varPtr->tracePtr = NULL;
varPtr->searchPtr = NULL;
varPtr->flags = localPtr->flags;
}
varPtr++;
}
}
/*
*----------------------------------------------------------------------
*
* TclExpandCodeArray --
*
* Procedure that uses malloc to allocate more storage for a
* CompileEnv's code array.
*
* Results:
* None.
*
* Side effects:
* The byte code array in *envPtr is reallocated to a new array of
* double the size, and if envPtr->mallocedCodeArray is non-zero the
* old array is freed. Byte codes are copied from the old array to the
* new one.
*
*----------------------------------------------------------------------
*/
void
TclExpandCodeArray(envArgPtr)
void *envArgPtr; /* Points to the CompileEnv whose code array
* must be enlarged. */
{
CompileEnv *envPtr = (CompileEnv*) envArgPtr; /* Points to the CompileEnv whose code array
* must be enlarged. */
/*
* envPtr->codeNext is equal to envPtr->codeEnd. The currently defined
* code bytes are stored between envPtr->codeStart and
* (envPtr->codeNext - 1) [inclusive].
*/
size_t currBytes = (envPtr->codeNext - envPtr->codeStart);
size_t newBytes = 2*(envPtr->codeEnd - envPtr->codeStart);
unsigned char *newPtr = (unsigned char *) ckalloc((unsigned) newBytes);
/*
* Copy from old code array to new, free old code array if needed, and
* mark new code array as malloced.
*/
memcpy((VOID *) newPtr, (VOID *) envPtr->codeStart, currBytes);
if (envPtr->mallocedCodeArray) {
ckfree((char *) envPtr->codeStart);
}
envPtr->codeStart = newPtr;
envPtr->codeNext = (newPtr + currBytes);
envPtr->codeEnd = (newPtr + newBytes);
envPtr->mallocedCodeArray = 1;
}
/*
*----------------------------------------------------------------------
*
* EnterCmdStartData --
*
* Registers the starting source and bytecode location of a
* command. This information is used at runtime to map between
* instruction pc and source locations.
*
* Results:
* None.
*
* Side effects:
* Inserts source and code location information into the compilation
* environment envPtr for the command at index cmdIndex. The
* compilation environment's CmdLocation array is grown if necessary.
*
*----------------------------------------------------------------------
*/
static void
EnterCmdStartData(envPtr, cmdIndex, srcOffset, codeOffset)
CompileEnv *envPtr; /* Points to the compilation environment
* structure in which to enter command
* location information. */
int cmdIndex; /* Index of the command whose start data
* is being set. */
int srcOffset; /* Offset of first char of the command. */
int codeOffset; /* Offset of first byte of command code. */
{
CmdLocation *cmdLocPtr;
if ((cmdIndex < 0) || (cmdIndex >= envPtr->numCommands)) {
Tcl_Panic("EnterCmdStartData: bad command index %d\n", cmdIndex);
}
if (cmdIndex >= envPtr->cmdMapEnd) {
/*
* Expand the command location array by allocating more storage from
* the heap. The currently allocated CmdLocation entries are stored
* from cmdMapPtr[0] up to cmdMapPtr[envPtr->cmdMapEnd] (inclusive).
*/
size_t currElems = envPtr->cmdMapEnd;
size_t newElems = 2*currElems;
size_t currBytes = currElems * sizeof(CmdLocation);
size_t newBytes = newElems * sizeof(CmdLocation);
CmdLocation *newPtr = (CmdLocation *) ckalloc((unsigned) newBytes);
/*
* Copy from old command location array to new, free old command
* location array if needed, and mark new array as malloced.
*/
memcpy((VOID *) newPtr, (VOID *) envPtr->cmdMapPtr, currBytes);
if (envPtr->mallocedCmdMap) {
ckfree((char *) envPtr->cmdMapPtr);
}
envPtr->cmdMapPtr = (CmdLocation *) newPtr;
envPtr->cmdMapEnd = newElems;
envPtr->mallocedCmdMap = 1;
}
if (cmdIndex > 0) {
if (codeOffset < envPtr->cmdMapPtr[cmdIndex-1].codeOffset) {
Tcl_Panic("EnterCmdStartData: cmd map not sorted by code offset");
}
}
cmdLocPtr = &(envPtr->cmdMapPtr[cmdIndex]);
cmdLocPtr->codeOffset = codeOffset;
cmdLocPtr->srcOffset = srcOffset;
cmdLocPtr->numSrcBytes = -1;
cmdLocPtr->numCodeBytes = -1;
}
/*
*----------------------------------------------------------------------
*
* EnterCmdExtentData --
*
* Registers the source and bytecode length for a command. This
* information is used at runtime to map between instruction pc and
* source locations.
*
* Results:
* None.
*
* Side effects:
* Inserts source and code length information into the compilation
* environment envPtr for the command at index cmdIndex. Starting
* source and bytecode information for the command must already
* have been registered.
*
*----------------------------------------------------------------------
*/
static void
EnterCmdExtentData(envPtr, cmdIndex, numSrcBytes, numCodeBytes)
CompileEnv *envPtr; /* Points to the compilation environment
* structure in which to enter command
* location information. */
int cmdIndex; /* Index of the command whose source and
* code length data is being set. */
int numSrcBytes; /* Number of command source chars. */
int numCodeBytes; /* Offset of last byte of command code. */
{
CmdLocation *cmdLocPtr;
if ((cmdIndex < 0) || (cmdIndex >= envPtr->numCommands)) {
Tcl_Panic("EnterCmdExtentData: bad command index %d\n", cmdIndex);
}
if (cmdIndex > envPtr->cmdMapEnd) {
Tcl_Panic("EnterCmdExtentData: missing start data for command %d\n",
cmdIndex);
}
cmdLocPtr = &(envPtr->cmdMapPtr[cmdIndex]);
cmdLocPtr->numSrcBytes = numSrcBytes;
cmdLocPtr->numCodeBytes = numCodeBytes;
}
/*
*----------------------------------------------------------------------
*
* TclCreateExceptRange --
*
* Procedure that allocates and initializes a new ExceptionRange
* structure of the specified kind in a CompileEnv.
*
* Results:
* Returns the index for the newly created ExceptionRange.
*
* Side effects:
* If there is not enough room in the CompileEnv's ExceptionRange
* array, the array in expanded: a new array of double the size is
* allocated, if envPtr->mallocedExceptArray is non-zero the old
* array is freed, and ExceptionRange entries are copied from the old
* array to the new one.
*
*----------------------------------------------------------------------
*/
int
TclCreateExceptRange(type, envPtr)
ExceptionRangeType type; /* The kind of ExceptionRange desired. */
register CompileEnv *envPtr;/* Points to CompileEnv for which to
* create a new ExceptionRange structure. */
{
register ExceptionRange *rangePtr;
int index = envPtr->exceptArrayNext;
if (index >= envPtr->exceptArrayEnd) {
/*
* Expand the ExceptionRange array. The currently allocated entries
* are stored between elements 0 and (envPtr->exceptArrayNext - 1)
* [inclusive].
*/
size_t currBytes =
envPtr->exceptArrayNext * sizeof(ExceptionRange);
int newElems = 2*envPtr->exceptArrayEnd;
size_t newBytes = newElems * sizeof(ExceptionRange);
ExceptionRange *newPtr = (ExceptionRange *)
ckalloc((unsigned) newBytes);
/*
* Copy from old ExceptionRange array to new, free old
* ExceptionRange array if needed, and mark the new ExceptionRange
* array as malloced.
*/
memcpy((VOID *) newPtr, (VOID *) envPtr->exceptArrayPtr,
currBytes);
if (envPtr->mallocedExceptArray) {
ckfree((char *) envPtr->exceptArrayPtr);
}
envPtr->exceptArrayPtr = (ExceptionRange *) newPtr;
envPtr->exceptArrayEnd = newElems;
envPtr->mallocedExceptArray = 1;
}
envPtr->exceptArrayNext++;
rangePtr = &(envPtr->exceptArrayPtr[index]);
rangePtr->type = type;
rangePtr->nestingLevel = envPtr->exceptDepth;
rangePtr->codeOffset = -1;
rangePtr->numCodeBytes = -1;
rangePtr->breakOffset = -1;
rangePtr->continueOffset = -1;
rangePtr->catchOffset = -1;
return index;
}
/*
*----------------------------------------------------------------------
*
* TclCreateAuxData --
*
* Procedure that allocates and initializes a new AuxData structure in
* a CompileEnv's array of compilation auxiliary data records. These
* AuxData records hold information created during compilation by
* CompileProcs and used by instructions during execution.
*
* Results:
* Returns the index for the newly created AuxData structure.
*
* Side effects:
* If there is not enough room in the CompileEnv's AuxData array,
* the AuxData array in expanded: a new array of double the size
* is allocated, if envPtr->mallocedAuxDataArray is non-zero
* the old array is freed, and AuxData entries are copied from
* the old array to the new one.
*
*----------------------------------------------------------------------
*/
int
TclCreateAuxData(clientData, typePtr, envPtr)
ClientData clientData; /* The compilation auxiliary data to store
* in the new aux data record. */
AuxDataType *typePtr; /* Pointer to the type to attach to this AuxData */
register CompileEnv *envPtr;/* Points to the CompileEnv for which a new
* aux data structure is to be allocated. */
{
int index; /* Index for the new AuxData structure. */
register AuxData *auxDataPtr;
/* Points to the new AuxData structure */
index = envPtr->auxDataArrayNext;
if (index >= envPtr->auxDataArrayEnd) {
/*
* Expand the AuxData array. The currently allocated entries are
* stored between elements 0 and (envPtr->auxDataArrayNext - 1)
* [inclusive].
*/
size_t currBytes = envPtr->auxDataArrayNext * sizeof(AuxData);
int newElems = 2*envPtr->auxDataArrayEnd;
size_t newBytes = newElems * sizeof(AuxData);
AuxData *newPtr = (AuxData *) ckalloc((unsigned) newBytes);
/*
* Copy from old AuxData array to new, free old AuxData array if
* needed, and mark the new AuxData array as malloced.
*/
memcpy((VOID *) newPtr, (VOID *) envPtr->auxDataArrayPtr,
currBytes);
if (envPtr->mallocedAuxDataArray) {
ckfree((char *) envPtr->auxDataArrayPtr);
}
envPtr->auxDataArrayPtr = newPtr;
envPtr->auxDataArrayEnd = newElems;
envPtr->mallocedAuxDataArray = 1;
}
envPtr->auxDataArrayNext++;
auxDataPtr = &(envPtr->auxDataArrayPtr[index]);
auxDataPtr->clientData = clientData;
auxDataPtr->type = typePtr;
return index;
}
/*
*----------------------------------------------------------------------
*
* TclInitJumpFixupArray --
*
* Initializes a JumpFixupArray structure to hold some number of
* jump fixup entries.
*
* Results:
* None.
*
* Side effects:
* The JumpFixupArray structure is initialized.
*
*----------------------------------------------------------------------
*/
void
TclInitJumpFixupArray(fixupArrayPtr)
register JumpFixupArray *fixupArrayPtr;
/* Points to the JumpFixupArray structure
* to initialize. */
{
fixupArrayPtr->fixup = fixupArrayPtr->staticFixupSpace;
fixupArrayPtr->next = 0;
fixupArrayPtr->end = (JUMPFIXUP_INIT_ENTRIES - 1);
fixupArrayPtr->mallocedArray = 0;
}
/*
*----------------------------------------------------------------------
*
* TclExpandJumpFixupArray --
*
* Procedure that uses malloc to allocate more storage for a
* jump fixup array.
*
* Results:
* None.
*
* Side effects:
* The jump fixup array in *fixupArrayPtr is reallocated to a new array
* of double the size, and if fixupArrayPtr->mallocedArray is non-zero
* the old array is freed. Jump fixup structures are copied from the
* old array to the new one.
*
*----------------------------------------------------------------------
*/
void
TclExpandJumpFixupArray(fixupArrayPtr)
register JumpFixupArray *fixupArrayPtr;
/* Points to the JumpFixupArray structure
* to enlarge. */
{
/*
* The currently allocated jump fixup entries are stored from fixup[0]
* up to fixup[fixupArrayPtr->fixupNext] (*not* inclusive). We assume
* fixupArrayPtr->fixupNext is equal to fixupArrayPtr->fixupEnd.
*/
size_t currBytes = fixupArrayPtr->next * sizeof(JumpFixup);
int newElems = 2*(fixupArrayPtr->end + 1);
size_t newBytes = newElems * sizeof(JumpFixup);
JumpFixup *newPtr = (JumpFixup *) ckalloc((unsigned) newBytes);
/*
* Copy from the old array to new, free the old array if needed,
* and mark the new array as malloced.
*/
memcpy((VOID *) newPtr, (VOID *) fixupArrayPtr->fixup, currBytes);
if (fixupArrayPtr->mallocedArray) {
ckfree((char *) fixupArrayPtr->fixup);
}
fixupArrayPtr->fixup = (JumpFixup *) newPtr;
fixupArrayPtr->end = newElems;
fixupArrayPtr->mallocedArray = 1;
}
/*
*----------------------------------------------------------------------
*
* TclFreeJumpFixupArray --
*
* Free any storage allocated in a jump fixup array structure.
*
* Results:
* None.
*
* Side effects:
* Allocated storage in the JumpFixupArray structure is freed.
*
*----------------------------------------------------------------------
*/
void
TclFreeJumpFixupArray(fixupArrayPtr)
register JumpFixupArray *fixupArrayPtr;
/* Points to the JumpFixupArray structure
* to free. */
{
if (fixupArrayPtr->mallocedArray) {
ckfree((char *) fixupArrayPtr->fixup);
}
}
/*
*----------------------------------------------------------------------
*
* TclEmitForwardJump --
*
* Procedure to emit a two-byte forward jump of kind "jumpType". Since
* the jump may later have to be grown to five bytes if the jump target
* is more than, say, 127 bytes away, this procedure also initializes a
* JumpFixup record with information about the jump.
*
* Results:
* None.
*
* Side effects:
* The JumpFixup record pointed to by "jumpFixupPtr" is initialized
* with information needed later if the jump is to be grown. Also,
* a two byte jump of the designated type is emitted at the current
* point in the bytecode stream.
*
*----------------------------------------------------------------------
*/
void
TclEmitForwardJump(envPtr, jumpType, jumpFixupPtr)
CompileEnv *envPtr; /* Points to the CompileEnv structure that
* holds the resulting instruction. */
TclJumpType jumpType; /* Indicates the kind of jump: if true or
* false or unconditional. */
JumpFixup *jumpFixupPtr; /* Points to the JumpFixup structure to
* initialize with information about this
* forward jump. */
{
/*
* Initialize the JumpFixup structure:
* - codeOffset is offset of first byte of jump below
* - cmdIndex is index of the command after the current one
* - exceptIndex is the index of the first ExceptionRange after
* the current one.
*/
jumpFixupPtr->jumpType = jumpType;
jumpFixupPtr->codeOffset = (envPtr->codeNext - envPtr->codeStart);
jumpFixupPtr->cmdIndex = envPtr->numCommands;
jumpFixupPtr->exceptIndex = envPtr->exceptArrayNext;
switch (jumpType) {
case TCL_UNCONDITIONAL_JUMP:
TclEmitInstInt1(INST_JUMP1, 0, envPtr);
break;
case TCL_TRUE_JUMP:
TclEmitInstInt1(INST_JUMP_TRUE1, 0, envPtr);
break;
default:
TclEmitInstInt1(INST_JUMP_FALSE1, 0, envPtr);
break;
}
}
/*
*----------------------------------------------------------------------
*
* TclFixupForwardJump --
*
* Procedure that updates a previously-emitted forward jump to jump
* a specified number of bytes, "jumpDist". If necessary, the jump is
* grown from two to five bytes; this is done if the jump distance is
* greater than "distThreshold" (normally 127 bytes). The jump is
* described by a JumpFixup record previously initialized by
* TclEmitForwardJump.
*
* Results:
* 1 if the jump was grown and subsequent instructions had to be moved;
* otherwise 0. This result is returned to allow callers to update
* any additional code offsets they may hold.
*
* Side effects:
* The jump may be grown and subsequent instructions moved. If this
* happens, the code offsets for any commands and any ExceptionRange
* records between the jump and the current code address will be
* updated to reflect the moved code. Also, the bytecode instruction
* array in the CompileEnv structure may be grown and reallocated.
*
*----------------------------------------------------------------------
*/
int
TclFixupForwardJump(envPtr, jumpFixupPtr, jumpDist, distThreshold)
CompileEnv *envPtr; /* Points to the CompileEnv structure that
* holds the resulting instruction. */
JumpFixup *jumpFixupPtr; /* Points to the JumpFixup structure that
* describes the forward jump. */
int jumpDist; /* Jump distance to set in jump
* instruction. */
int distThreshold; /* Maximum distance before the two byte
* jump is grown to five bytes. */
{
unsigned char *jumpPc, *p;
int firstCmd, lastCmd, firstRange, lastRange, k;
unsigned int numBytes;
if (jumpDist <= distThreshold) {
jumpPc = (envPtr->codeStart + jumpFixupPtr->codeOffset);
switch (jumpFixupPtr->jumpType) {
case TCL_UNCONDITIONAL_JUMP:
TclUpdateInstInt1AtPc(INST_JUMP1, jumpDist, jumpPc);
break;
case TCL_TRUE_JUMP:
TclUpdateInstInt1AtPc(INST_JUMP_TRUE1, jumpDist, jumpPc);
break;
default:
TclUpdateInstInt1AtPc(INST_JUMP_FALSE1, jumpDist, jumpPc);
break;
}
return 0;
}
/*
* We must grow the jump then move subsequent instructions down.
* Note that if we expand the space for generated instructions,
* code addresses might change; be careful about updating any of
* these addresses held in variables.
*/
if ((envPtr->codeNext + 3) > envPtr->codeEnd) {
TclExpandCodeArray(envPtr);
}
jumpPc = (envPtr->codeStart + jumpFixupPtr->codeOffset);
for (numBytes = envPtr->codeNext-jumpPc-2, p = jumpPc+2+numBytes-1;
numBytes > 0; numBytes--, p--) {
p[3] = p[0];
}
envPtr->codeNext += 3;
jumpDist += 3;
switch (jumpFixupPtr->jumpType) {
case TCL_UNCONDITIONAL_JUMP:
TclUpdateInstInt4AtPc(INST_JUMP4, jumpDist, jumpPc);
break;
case TCL_TRUE_JUMP:
TclUpdateInstInt4AtPc(INST_JUMP_TRUE4, jumpDist, jumpPc);
break;
default:
TclUpdateInstInt4AtPc(INST_JUMP_FALSE4, jumpDist, jumpPc);
break;
}
/*
* Adjust the code offsets for any commands and any ExceptionRange
* records between the jump and the current code address.
*/
firstCmd = jumpFixupPtr->cmdIndex;
lastCmd = (envPtr->numCommands - 1);
if (firstCmd < lastCmd) {
for (k = firstCmd; k <= lastCmd; k++) {
(envPtr->cmdMapPtr[k]).codeOffset += 3;
}
}
firstRange = jumpFixupPtr->exceptIndex;
lastRange = (envPtr->exceptArrayNext - 1);
for (k = firstRange; k <= lastRange; k++) {
ExceptionRange *rangePtr = &(envPtr->exceptArrayPtr[k]);
rangePtr->codeOffset += 3;
switch (rangePtr->type) {
case LOOP_EXCEPTION_RANGE:
rangePtr->breakOffset += 3;
if (rangePtr->continueOffset != -1) {
rangePtr->continueOffset += 3;
}
break;
case CATCH_EXCEPTION_RANGE:
rangePtr->catchOffset += 3;
break;
default:
Tcl_Panic("TclFixupForwardJump: bad ExceptionRange type %d\n",
rangePtr->type);
}
}
return 1; /* the jump was grown */
}
/*
*----------------------------------------------------------------------
*
* TclGetInstructionTable --
*
* Returns a pointer to the table describing Tcl bytecode instructions.
* This procedure is defined so that clients can access the pointer from
* outside the TCL DLLs.
*
* Results:
* Returns a pointer to the global instruction table, same as the
* expression (&tclInstructionTable[0]).
*
* Side effects:
* None.
*
*----------------------------------------------------------------------
*/
void * /* == InstructionDesc* == */
TclGetInstructionTable()
{
return &tclInstructionTable[0];
}
/*
*--------------------------------------------------------------
*
* TclRegisterAuxDataType --
*
* This procedure is called to register a new AuxData type
* in the table of all AuxData types supported by Tcl.
*
* Results:
* None.
*
* Side effects:
* The type is registered in the AuxData type table. If there was already
* a type with the same name as in typePtr, it is replaced with the
* new type.
*
*--------------------------------------------------------------
*/
void
TclRegisterAuxDataType(typePtr)
AuxDataType *typePtr; /* Information about object type;
* storage must be statically
* allocated (must live forever). */
{
register Tcl_HashEntry *hPtr;
int new;
Tcl_MutexLock(&tableMutex);
if (!auxDataTypeTableInitialized) {
TclInitAuxDataTypeTable();
}
/*
* If there's already a type with the given name, remove it.
*/
hPtr = Tcl_FindHashEntry(&auxDataTypeTable, typePtr->name);
if (hPtr != (Tcl_HashEntry *) NULL) {
Tcl_DeleteHashEntry(hPtr);
}
/*
* Now insert the new object type.
*/
hPtr = Tcl_CreateHashEntry(&auxDataTypeTable, typePtr->name, &new);
if (new) {
Tcl_SetHashValue(hPtr, typePtr);
}
Tcl_MutexUnlock(&tableMutex);
}
/*
*----------------------------------------------------------------------
*
* TclGetAuxDataType --
*
* This procedure looks up an Auxdata type by name.
*
* Results:
* If an AuxData type with name matching "typeName" is found, a pointer
* to its AuxDataType structure is returned; otherwise, NULL is returned.
*
* Side effects:
* None.
*
*----------------------------------------------------------------------
*/
AuxDataType *
TclGetAuxDataType(typeName)
char *typeName; /* Name of AuxData type to look up. */
{
register Tcl_HashEntry *hPtr;
AuxDataType *typePtr = NULL;
Tcl_MutexLock(&tableMutex);
if (!auxDataTypeTableInitialized) {
TclInitAuxDataTypeTable();
}
hPtr = Tcl_FindHashEntry(&auxDataTypeTable, typeName);
if (hPtr != (Tcl_HashEntry *) NULL) {
typePtr = (AuxDataType *) Tcl_GetHashValue(hPtr);
}
Tcl_MutexUnlock(&tableMutex);
return typePtr;
}
/*
*--------------------------------------------------------------
*
* TclInitAuxDataTypeTable --
*
* This procedure is invoked to perform once-only initialization of
* the AuxData type table. It also registers the AuxData types defined in
* this file.
*
* Results:
* None.
*
* Side effects:
* Initializes the table of defined AuxData types "auxDataTypeTable" with
* builtin AuxData types defined in this file.
*
*--------------------------------------------------------------
*/
void
TclInitAuxDataTypeTable()
{
/*
* The table mutex must already be held before this routine is invoked.
*/
auxDataTypeTableInitialized = 1;
Tcl_InitHashTable(&auxDataTypeTable, TCL_STRING_KEYS);
/*
* There is only one AuxData type at this time, so register it here.
*/
TclRegisterAuxDataType(&tclForeachInfoType);
}
/*
*----------------------------------------------------------------------
*
* TclFinalizeAuxDataTypeTable --
*
* This procedure is called by Tcl_Finalize after all exit handlers
* have been run to free up storage associated with the table of AuxData
* types. This procedure is called by TclFinalizeExecution() which
* is called by Tcl_Finalize().
*
* Results:
* None.
*
* Side effects:
* Deletes all entries in the hash table of AuxData types.
*
*----------------------------------------------------------------------
*/
void
TclFinalizeAuxDataTypeTable()
{
Tcl_MutexLock(&tableMutex);
if (auxDataTypeTableInitialized) {
Tcl_DeleteHashTable(&auxDataTypeTable);
auxDataTypeTableInitialized = 0;
}
Tcl_MutexUnlock(&tableMutex);
}
/*
*----------------------------------------------------------------------
*
* GetCmdLocEncodingSize --
*
* Computes the total number of bytes needed to encode the command
* location information for some compiled code.
*
* Results:
* The byte count needed to encode the compiled location information.
*
* Side effects:
* None.
*
*----------------------------------------------------------------------
*/
static int
GetCmdLocEncodingSize(envPtr)
CompileEnv *envPtr; /* Points to compilation environment
* structure containing the CmdLocation
* structure to encode. */
{
register CmdLocation *mapPtr = envPtr->cmdMapPtr;
int numCmds = envPtr->numCommands;
int codeDelta, codeLen, srcDelta, srcLen;
int codeDeltaNext, codeLengthNext, srcDeltaNext, srcLengthNext;
/* The offsets in their respective byte
* sequences where the next encoded offset
* or length should go. */
int prevCodeOffset, prevSrcOffset, i;
codeDeltaNext = codeLengthNext = srcDeltaNext = srcLengthNext = 0;
prevCodeOffset = prevSrcOffset = 0;
for (i = 0; i < numCmds; i++) {
codeDelta = (mapPtr[i].codeOffset - prevCodeOffset);
if (codeDelta < 0) {
Tcl_Panic("GetCmdLocEncodingSize: bad code offset");
} else if (codeDelta <= 127) {
codeDeltaNext++;
} else {
codeDeltaNext += 5; /* 1 byte for 0xFF, 4 for positive delta */
}
prevCodeOffset = mapPtr[i].codeOffset;
codeLen = mapPtr[i].numCodeBytes;
if (codeLen < 0) {
Tcl_Panic("GetCmdLocEncodingSize: bad code length");
} else if (codeLen <= 127) {
codeLengthNext++;
} else {
codeLengthNext += 5; /* 1 byte for 0xFF, 4 for length */
}
srcDelta = (mapPtr[i].srcOffset - prevSrcOffset);
if ((-127 <= srcDelta) && (srcDelta <= 127)) {
srcDeltaNext++;
} else {
srcDeltaNext += 5; /* 1 byte for 0xFF, 4 for delta */
}
prevSrcOffset = mapPtr[i].srcOffset;
srcLen = mapPtr[i].numSrcBytes;
if (srcLen < 0) {
Tcl_Panic("GetCmdLocEncodingSize: bad source length");
} else if (srcLen <= 127) {
srcLengthNext++;
} else {
srcLengthNext += 5; /* 1 byte for 0xFF, 4 for length */
}
}
return (codeDeltaNext + codeLengthNext + srcDeltaNext + srcLengthNext);
}
/*
*----------------------------------------------------------------------
*
* EncodeCmdLocMap --
*
* Encode the command location information for some compiled code into
* a ByteCode structure. The encoded command location map is stored as
* three adjacent byte sequences.
*
* Results:
* Pointer to the first byte after the encoded command location
* information.
*
* Side effects:
* The encoded information is stored into the block of memory headed
* by codePtr. Also records pointers to the start of the four byte
* sequences in fields in codePtr's ByteCode header structure.
*
*----------------------------------------------------------------------
*/
static unsigned char *
EncodeCmdLocMap(envPtr, codePtr, startPtr)
CompileEnv *envPtr; /* Points to compilation environment
* structure containing the CmdLocation
* structure to encode. */
ByteCode *codePtr; /* ByteCode in which to encode envPtr's
* command location information. */
unsigned char *startPtr; /* Points to the first byte in codePtr's
* memory block where the location
* information is to be stored. */
{
register CmdLocation *mapPtr = envPtr->cmdMapPtr;
int numCmds = envPtr->numCommands;
register unsigned char *p = startPtr;
int codeDelta, codeLen, srcDelta, srcLen, prevOffset;
register int i;
/*
* Encode the code offset for each command as a sequence of deltas.
*/
codePtr->codeDeltaStart = p;
prevOffset = 0;
for (i = 0; i < numCmds; i++) {
codeDelta = (mapPtr[i].codeOffset - prevOffset);
if (codeDelta < 0) {
Tcl_Panic("EncodeCmdLocMap: bad code offset");
} else if (codeDelta <= 127) {
TclStoreInt1AtPtr(codeDelta, p);
p++;
} else {
TclStoreInt1AtPtr(0xFF, p);
p++;
TclStoreInt4AtPtr(codeDelta, p);
p += 4;
}
prevOffset = mapPtr[i].codeOffset;
}
/*
* Encode the code length for each command.
*/
codePtr->codeLengthStart = p;
for (i = 0; i < numCmds; i++) {
codeLen = mapPtr[i].numCodeBytes;
if (codeLen < 0) {
Tcl_Panic("EncodeCmdLocMap: bad code length");
} else if (codeLen <= 127) {
TclStoreInt1AtPtr(codeLen, p);
p++;
} else {
TclStoreInt1AtPtr(0xFF, p);
p++;
TclStoreInt4AtPtr(codeLen, p);
p += 4;
}
}
/*
* Encode the source offset for each command as a sequence of deltas.
*/
codePtr->srcDeltaStart = p;
prevOffset = 0;
for (i = 0; i < numCmds; i++) {
srcDelta = (mapPtr[i].srcOffset - prevOffset);
if ((-127 <= srcDelta) && (srcDelta <= 127)) {
TclStoreInt1AtPtr(srcDelta, p);
p++;
} else {
TclStoreInt1AtPtr(0xFF, p);
p++;
TclStoreInt4AtPtr(srcDelta, p);
p += 4;
}
prevOffset = mapPtr[i].srcOffset;
}
/*
* Encode the source length for each command.
*/
codePtr->srcLengthStart = p;
for (i = 0; i < numCmds; i++) {
srcLen = mapPtr[i].numSrcBytes;
if (srcLen < 0) {
Tcl_Panic("EncodeCmdLocMap: bad source length");
} else if (srcLen <= 127) {
TclStoreInt1AtPtr(srcLen, p);
p++;
} else {
TclStoreInt1AtPtr(0xFF, p);
p++;
TclStoreInt4AtPtr(srcLen, p);
p += 4;
}
}
return p;
}
#ifdef TCL_COMPILE_DEBUG
/*
*----------------------------------------------------------------------
*
* TclPrintByteCodeObj --
*
* This procedure prints ("disassembles") the instructions of a
* bytecode object to stdout.
*
* Results:
* None.
*
* Side effects:
* None.
*
*----------------------------------------------------------------------
*/
void
TclPrintByteCodeObj(interp, objPtr)
Tcl_Interp *interp; /* Used only for Tcl_GetStringFromObj. */
Tcl_Obj *objPtr; /* The bytecode object to disassemble. */
{
ByteCode* codePtr = (ByteCode *) objPtr->internalRep.otherValuePtr;
unsigned char *codeStart, *codeLimit, *pc;
unsigned char *codeDeltaNext, *codeLengthNext;
unsigned char *srcDeltaNext, *srcLengthNext;
int codeOffset, codeLen, srcOffset, srcLen, numCmds, delta, i;
Interp *iPtr = (Interp *) *codePtr->interpHandle;
if (codePtr->refCount <= 0) {
return; /* already freed */
}
codeStart = codePtr->codeStart;
codeLimit = (codeStart + codePtr->numCodeBytes);
numCmds = codePtr->numCommands;
/*
* Print header lines describing the ByteCode.
*/
fprintf(stdout, "\nByteCode 0x%x, refCt %u, epoch %u, interp 0x%x (epoch %u)\n",
(unsigned int) codePtr, codePtr->refCount,
codePtr->compileEpoch, (unsigned int) iPtr,
iPtr->compileEpoch);
fprintf(stdout, " Source ");
TclPrintSource(stdout, codePtr->source,
TclMin(codePtr->numSrcBytes, 55));
fprintf(stdout, "\n Cmds %d, src %d, inst %d, litObjs %u, aux %d, stkDepth %u, code/src %.2f\n",
numCmds, codePtr->numSrcBytes, codePtr->numCodeBytes,
codePtr->numLitObjects, codePtr->numAuxDataItems,
codePtr->maxStackDepth,
#ifdef TCL_COMPILE_STATS
(codePtr->numSrcBytes?
((float)codePtr->structureSize)/((float)codePtr->numSrcBytes) : 0.0));
#else
0.0);
#endif
#ifdef TCL_COMPILE_STATS
fprintf(stdout,
" Code %d = header %d+inst %d+litObj %d+exc %d+aux %d+cmdMap %d\n",
codePtr->structureSize,
(sizeof(ByteCode) - (sizeof(size_t) + sizeof(Tcl_Time))),
codePtr->numCodeBytes,
(codePtr->numLitObjects * sizeof(Tcl_Obj *)),
(codePtr->numExceptRanges * sizeof(ExceptionRange)),
(codePtr->numAuxDataItems * sizeof(AuxData)),
codePtr->numCmdLocBytes);
#endif /* TCL_COMPILE_STATS */
/*
* If the ByteCode is the compiled body of a Tcl procedure, print
* information about that procedure. Note that we don't know the
* procedure's name since ByteCode's can be shared among procedures.
*/
if (codePtr->procPtr != NULL) {
Proc *procPtr = codePtr->procPtr;
int numCompiledLocals = procPtr->numCompiledLocals;
fprintf(stdout,
" Proc 0x%x, refCt %d, args %d, compiled locals %d\n",
(unsigned int) procPtr, procPtr->refCount, procPtr->numArgs,
numCompiledLocals);
if (numCompiledLocals > 0) {
CompiledLocal *localPtr = procPtr->firstLocalPtr;
for (i = 0; i < numCompiledLocals; i++) {
fprintf(stdout, " slot %d%s%s%s%s%s%s", i,
((localPtr->flags & VAR_SCALAR)? ", scalar" : ""),
((localPtr->flags & VAR_ARRAY)? ", array" : ""),
((localPtr->flags & VAR_LINK)? ", link" : ""),
((localPtr->flags & VAR_ARGUMENT)? ", arg" : ""),
((localPtr->flags & VAR_TEMPORARY)? ", temp" : ""),
((localPtr->flags & VAR_RESOLVED)? ", resolved" : ""));
if (TclIsVarTemporary(localPtr)) {
fprintf(stdout, "\n");
} else {
fprintf(stdout, ", \"%s\"\n", localPtr->name);
}
localPtr = localPtr->nextPtr;
}
}
}
/*
* Print the ExceptionRange array.
*/
if (codePtr->numExceptRanges > 0) {
fprintf(stdout, " Exception ranges %d, depth %d:\n",
codePtr->numExceptRanges, codePtr->maxExceptDepth);
for (i = 0; i < codePtr->numExceptRanges; i++) {
ExceptionRange *rangePtr = &(codePtr->exceptArrayPtr[i]);
fprintf(stdout, " %d: level %d, %s, pc %d-%d, ",
i, rangePtr->nestingLevel,
((rangePtr->type == LOOP_EXCEPTION_RANGE)
? "loop" : "catch"),
rangePtr->codeOffset,
(rangePtr->codeOffset + rangePtr->numCodeBytes - 1));
switch (rangePtr->type) {
case LOOP_EXCEPTION_RANGE:
fprintf(stdout, "continue %d, break %d\n",
rangePtr->continueOffset, rangePtr->breakOffset);
break;
case CATCH_EXCEPTION_RANGE:
fprintf(stdout, "catch %d\n", rangePtr->catchOffset);
break;
default:
Tcl_Panic("TclPrintByteCodeObj: bad ExceptionRange type %d\n",
rangePtr->type);
}
}
}
/*
* If there were no commands (e.g., an expression or an empty string
* was compiled), just print all instructions and return.
*/
if (numCmds == 0) {
pc = codeStart;
while (pc < codeLimit) {
fprintf(stdout, " ");
pc += TclPrintInstruction(codePtr, pc);
}
return;
}
/*
* Print table showing the code offset, source offset, and source
* length for each command. These are encoded as a sequence of bytes.
*/
fprintf(stdout, " Commands %d:", numCmds);
codeDeltaNext = codePtr->codeDeltaStart;
codeLengthNext = codePtr->codeLengthStart;
srcDeltaNext = codePtr->srcDeltaStart;
srcLengthNext = codePtr->srcLengthStart;
codeOffset = srcOffset = 0;
for (i = 0; i < numCmds; i++) {
if ((unsigned int) (*codeDeltaNext) == (unsigned int) 0xFF) {
codeDeltaNext++;
delta = TclGetInt4AtPtr(codeDeltaNext);
codeDeltaNext += 4;
} else {
delta = TclGetInt1AtPtr(codeDeltaNext);
codeDeltaNext++;
}
codeOffset += delta;
if ((unsigned int) (*codeLengthNext) == (unsigned int) 0xFF) {
codeLengthNext++;
codeLen = TclGetInt4AtPtr(codeLengthNext);
codeLengthNext += 4;
} else {
codeLen = TclGetInt1AtPtr(codeLengthNext);
codeLengthNext++;
}
if ((unsigned int) (*srcDeltaNext) == (unsigned int) 0xFF) {
srcDeltaNext++;
delta = TclGetInt4AtPtr(srcDeltaNext);
srcDeltaNext += 4;
} else {
delta = TclGetInt1AtPtr(srcDeltaNext);
srcDeltaNext++;
}
srcOffset += delta;
if ((unsigned int) (*srcLengthNext) == (unsigned int) 0xFF) {
srcLengthNext++;
srcLen = TclGetInt4AtPtr(srcLengthNext);
srcLengthNext += 4;
} else {
srcLen = TclGetInt1AtPtr(srcLengthNext);
srcLengthNext++;
}
fprintf(stdout, "%s%4d: pc %d-%d, src %d-%d",
((i % 2)? " " : "\n "),
(i+1), codeOffset, (codeOffset + codeLen - 1),
srcOffset, (srcOffset + srcLen - 1));
}
if (numCmds > 0) {
fprintf(stdout, "\n");
}
/*
* Print each instruction. If the instruction corresponds to the start
* of a command, print the command's source. Note that we don't need
* the code length here.
*/
codeDeltaNext = codePtr->codeDeltaStart;
srcDeltaNext = codePtr->srcDeltaStart;
srcLengthNext = codePtr->srcLengthStart;
codeOffset = srcOffset = 0;
pc = codeStart;
for (i = 0; i < numCmds; i++) {
if ((unsigned int) (*codeDeltaNext) == (unsigned int) 0xFF) {
codeDeltaNext++;
delta = TclGetInt4AtPtr(codeDeltaNext);
codeDeltaNext += 4;
} else {
delta = TclGetInt1AtPtr(codeDeltaNext);
codeDeltaNext++;
}
codeOffset += delta;
if ((unsigned int) (*srcDeltaNext) == (unsigned int) 0xFF) {
srcDeltaNext++;
delta = TclGetInt4AtPtr(srcDeltaNext);
srcDeltaNext += 4;
} else {
delta = TclGetInt1AtPtr(srcDeltaNext);
srcDeltaNext++;
}
srcOffset += delta;
if ((unsigned int) (*srcLengthNext) == (unsigned int) 0xFF) {
srcLengthNext++;
srcLen = TclGetInt4AtPtr(srcLengthNext);
srcLengthNext += 4;
} else {
srcLen = TclGetInt1AtPtr(srcLengthNext);
srcLengthNext++;
}
/*
* Print instructions before command i.
*/
while ((pc-codeStart) < codeOffset) {
fprintf(stdout, " ");
pc += TclPrintInstruction(codePtr, pc);
}
fprintf(stdout, " Command %d: ", (i+1));
TclPrintSource(stdout, (codePtr->source + srcOffset),
TclMin(srcLen, 55));
fprintf(stdout, "\n");
}
if (pc < codeLimit) {
/*
* Print instructions after the last command.
*/
while (pc < codeLimit) {
fprintf(stdout, " ");
pc += TclPrintInstruction(codePtr, pc);
}
}
}
#endif /* TCL_COMPILE_DEBUG */
/*
*----------------------------------------------------------------------
*
* TclPrintInstruction --
*
* This procedure prints ("disassembles") one instruction from a
* bytecode object to stdout.
*
* Results:
* Returns the length in bytes of the current instruiction.
*
* Side effects:
* None.
*
*----------------------------------------------------------------------
*/
int
TclPrintInstruction(codePtr, pc)
ByteCode* codePtr; /* Bytecode containing the instruction. */
unsigned char *pc; /* Points to first byte of instruction. */
{
Proc *procPtr = codePtr->procPtr;
unsigned char opCode = *pc;
register InstructionDesc *instDesc = &tclInstructionTable[opCode];
unsigned char *codeStart = codePtr->codeStart;
unsigned int pcOffset = (pc - codeStart);
int opnd, i, j, numBytes = 1;
fprintf(stdout, "(%u) %s ", pcOffset, instDesc->name);
for (i = 0; i < instDesc->numOperands; i++) {
switch (instDesc->opTypes[i]) {
case OPERAND_INT1:
opnd = TclGetInt1AtPtr(pc+numBytes); numBytes++;
if ((i == 0) && ((opCode == INST_JUMP1)
|| (opCode == INST_JUMP_TRUE1)
|| (opCode == INST_JUMP_FALSE1))) {
fprintf(stdout, "%d # pc %u", opnd, (pcOffset + opnd));
} else {
fprintf(stdout, "%d", opnd);
}
break;
case OPERAND_INT4:
opnd = TclGetInt4AtPtr(pc+numBytes); numBytes += 4;
if ((i == 0) && ((opCode == INST_JUMP4)
|| (opCode == INST_JUMP_TRUE4)
|| (opCode == INST_JUMP_FALSE4))) {
fprintf(stdout, "%d # pc %u", opnd, (pcOffset + opnd));
} else {
fprintf(stdout, "%d", opnd);
}
break;
case OPERAND_UINT1:
opnd = TclGetUInt1AtPtr(pc+numBytes); numBytes++;
if ((i == 0) && (opCode == INST_PUSH1)) {
fprintf(stdout, "%u # ", (unsigned int) opnd);
TclPrintObject(stdout, codePtr->objArrayPtr[opnd], 40);
} else if ((i == 0) && ((opCode == INST_LOAD_SCALAR1)
|| (opCode == INST_LOAD_ARRAY1)
|| (opCode == INST_STORE_SCALAR1)
|| (opCode == INST_STORE_ARRAY1))) {
int localCt = procPtr->numCompiledLocals;
CompiledLocal *localPtr = procPtr->firstLocalPtr;
if (opnd >= localCt) {
Tcl_Panic("TclPrintInstruction: bad local var index %u (%u locals)\n",
(unsigned int) opnd, localCt);
}
for (j = 0; j < opnd; j++) {
localPtr = localPtr->nextPtr;
}
if (TclIsVarTemporary(localPtr)) {
fprintf(stdout, "%u # temp var %u",
(unsigned int) opnd, (unsigned int) opnd);
} else {
fprintf(stdout, "%u # var ", (unsigned int) opnd);
TclPrintSource(stdout, localPtr->name, 40);
}
} else {
fprintf(stdout, "%u ", (unsigned int) opnd);
}
break;
case OPERAND_UINT4:
opnd = TclGetUInt4AtPtr(pc+numBytes); numBytes += 4;
if (opCode == INST_PUSH4) {
fprintf(stdout, "%u # ", opnd);
TclPrintObject(stdout, codePtr->objArrayPtr[opnd], 40);
} else if ((i == 0) && ((opCode == INST_LOAD_SCALAR4)
|| (opCode == INST_LOAD_ARRAY4)
|| (opCode == INST_STORE_SCALAR4)
|| (opCode == INST_STORE_ARRAY4))) {
int localCt = procPtr->numCompiledLocals;
CompiledLocal *localPtr = procPtr->firstLocalPtr;
if (opnd >= localCt) {
Tcl_Panic("TclPrintInstruction: bad local var index %u (%u locals)\n",
(unsigned int) opnd, localCt);
}
for (j = 0; j < opnd; j++) {
localPtr = localPtr->nextPtr;
}
if (TclIsVarTemporary(localPtr)) {
fprintf(stdout, "%u # temp var %u",
(unsigned int) opnd, (unsigned int) opnd);
} else {
fprintf(stdout, "%u # var ", (unsigned int) opnd);
TclPrintSource(stdout, localPtr->name, 40);
}
} else {
fprintf(stdout, "%u ", (unsigned int) opnd);
}
break;
case OPERAND_ULIST1:
opnd = TclGetUInt1AtPtr(pc+numBytes); numBytes++;
fprintf(stdout, "{");
while (opnd) {
fprintf(stdout, "%u ", opnd);
opnd = TclGetUInt1AtPtr(pc+numBytes); numBytes++;
}
fprintf(stdout, "0}");
break;
case OPERAND_IDX4:
opnd = TclGetInt4AtPtr(pc+numBytes); numBytes += 4;
if (opnd >= -1) {
fprintf(stdout, "%d ", opnd);
} else if (opnd == -2) {
fprintf(stdout, "end ");
} else {
fprintf(stdout, "end-%d ", -2-opnd);
}
break;
case OPERAND_NONE:
default:
break;
}
}
fprintf(stdout, "\n");
return numBytes;
}
/*
*----------------------------------------------------------------------
*
* TclPrintObject --
*
* This procedure prints up to a specified number of characters from
* the argument Tcl object's string representation to a specified file.
*
* Results:
* None.
*
* Side effects:
* Outputs characters to the specified file.
*
*----------------------------------------------------------------------
*/
void
TclPrintObject(outFile, objPtr, maxChars)
FILE *outFile; /* The file to print the source to. */
Tcl_Obj *objPtr; /* Points to the Tcl object whose string
* representation should be printed. */
int maxChars; /* Maximum number of chars to print. */
{
char *bytes;
int length;
bytes = Tcl_GetStringFromObj(objPtr, &length);
TclPrintSource(outFile, bytes, TclMin(length, maxChars));
}
/*
*----------------------------------------------------------------------
*
* TclPrintSource --
*
* This procedure prints up to a specified number of characters from
* the argument string to a specified file. It tries to produce legible
* output by adding backslashes as necessary.
*
* Results:
* None.
*
* Side effects:
* Outputs characters to the specified file.
*
*----------------------------------------------------------------------
*/
void
TclPrintSource(outFile, string, maxChars)
FILE *outFile; /* The file to print the source to. */
CONST char *string; /* The string to print. */
int maxChars; /* Maximum number of chars to print. */
{
register CONST char *p;
register int i = 0;
if (string == NULL) {
fprintf(outFile, "\"\"");
return;
}
fprintf(outFile, "\"");
p = string;
for (; (*p != '\0') && (i < maxChars); p++, i++) {
switch (*p) {
case '"':
fprintf(outFile, "\\\"");
continue;
case '\f':
fprintf(outFile, "\\f");
continue;
case '\n':
fprintf(outFile, "\\n");
continue;
case '\r':
fprintf(outFile, "\\r");
continue;
case '\t':
fprintf(outFile, "\\t");
continue;
case '\v':
fprintf(outFile, "\\v");
continue;
default:
fprintf(outFile, "%c", *p);
continue;
}
}
fprintf(outFile, "\"");
}
#ifdef TCL_COMPILE_STATS
/*
*----------------------------------------------------------------------
*
* RecordByteCodeStats --
*
* Accumulates various compilation-related statistics for each newly
* compiled ByteCode. Called by the TclInitByteCodeObj when Tcl is
* compiled with the -DTCL_COMPILE_STATS flag
*
* Results:
* None.
*
* Side effects:
* Accumulates aggregate code-related statistics in the interpreter's
* ByteCodeStats structure. Records statistics specific to a ByteCode
* in its ByteCode structure.
*
*----------------------------------------------------------------------
*/
void
RecordByteCodeStats(codePtr)
ByteCode *codePtr; /* Points to ByteCode structure with info
* to add to accumulated statistics. */
{
Interp *iPtr = (Interp *) *codePtr->interpHandle;
register ByteCodeStats *statsPtr = &(iPtr->stats);
statsPtr->numCompilations++;
statsPtr->totalSrcBytes += (double) codePtr->numSrcBytes;
statsPtr->totalByteCodeBytes += (double) codePtr->structureSize;
statsPtr->currentSrcBytes += (double) codePtr->numSrcBytes;
statsPtr->currentByteCodeBytes += (double) codePtr->structureSize;
statsPtr->srcCount[TclLog2(codePtr->numSrcBytes)]++;
statsPtr->byteCodeCount[TclLog2((int)(codePtr->structureSize))]++;
statsPtr->currentInstBytes += (double) codePtr->numCodeBytes;
statsPtr->currentLitBytes +=
(double) (codePtr->numLitObjects * sizeof(Tcl_Obj *));
statsPtr->currentExceptBytes +=
(double) (codePtr->numExceptRanges * sizeof(ExceptionRange));
statsPtr->currentAuxBytes +=
(double) (codePtr->numAuxDataItems * sizeof(AuxData));
statsPtr->currentCmdMapBytes += (double) codePtr->numCmdLocBytes;
}
#endif /* TCL_COMPILE_STATS */
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