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authorpooryorick <com.digitalsmarties@pooryorick.com>2016-10-05 00:05:55 (GMT)
committerpooryorick <com.digitalsmarties@pooryorick.com>2016-10-05 00:05:55 (GMT)
commitb1d510f1db268a6a1ef618487dd716a2d805b309 (patch)
tree5d0a3c588158afb45e7281b02ff99534485f072b /doc
parent111f52e7ed0e28650bca3546513f137a8507db19 (diff)
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Rewrite expr documentation. Among other things, fixes [ef5373e6fa0617ee].
Diffstat (limited to 'doc')
-rw-r--r--doc/expr.n385
1 files changed, 171 insertions, 214 deletions
diff --git a/doc/expr.n b/doc/expr.n
index e25515d..7458129 100644
--- a/doc/expr.n
+++ b/doc/expr.n
@@ -17,14 +17,14 @@ expr \- Evaluate an expression
.BE
.SH DESCRIPTION
.PP
-Concatenates \fIarg\fRs (adding separator spaces between them),
-evaluates the result as a Tcl expression, and returns the value.
-The operators permitted in Tcl expressions include a subset of
+Concatenates \fIarg\fRs, separated by a space, into an expresion, and evaluates
+that expression, returning its value.
+The operators permitted in an expression include a subset of
the operators permitted in C expressions. For those operators
common to both Tcl and C, Tcl applies the same meaning and precedence
as the corresponding C operators.
-Expressions almost always yield numeric results
-(integer or floating-point values).
+The value of an expressions is often a numeric result, either an integer or a
+floating-point value, but may also be a non-numeric value.
For example, the expression
.PP
.CS
@@ -32,78 +32,68 @@ For example, the expression
.CE
.PP
evaluates to 14.2.
-Tcl expressions differ from C expressions in the way that
-operands are specified. Also, Tcl expressions support
-non-numeric operands and string comparisons, as well as some
+Expressions differ from C expressions in the way that
+operands are specified. Also, expressions support
+non-numeric operands, string comparisons, and some
additional operators not found in C.
+.PP
+When an expression evaluates to an integer, the value is the decimal form of
+the integer, and when an expression evaluates to a floating-point number, the
+value is the form produced by the \fB%g\fR format specifier of Tcl's
+\fBformat\fR command.
.SS OPERANDS
.PP
-A Tcl expression consists of a combination of operands, operators,
-parentheses and commas.
-White space may be used between the operands and operators and
-parentheses (or commas); it is ignored by the expression's instructions.
-Where possible, operands are interpreted as integer values.
-Integer values may be specified in decimal (the normal case), in binary
-(if the first two characters of the operand are \fB0b\fR), in octal
-(if the first two characters of the operand are \fB0o\fR), or in hexadecimal
-(if the first two characters of the operand are \fB0x\fR). For
-compatibility with older Tcl releases, an octal integer value is also
-indicated simply when the first character of the operand is \fB0\fR,
-whether or not the second character is also \fBo\fR.
-If an operand does not have one of the integer formats given
-above, then it is treated as a floating-point number if that is
-possible. Floating-point numbers may be specified in any of several
-common formats making use of the decimal digits, the decimal point \fB.\fR,
-the characters \fBe\fR or \fBE\fR indicating scientific notation, and
-the sign characters \fB+\fR or \fB\-\fR. For example, all of the
-following are valid floating-point numbers: 2.1, 3., 6e4, 7.91e+16.
-Also recognized as floating point values are the strings \fBInf\fR
-and \fBNaN\fR making use of any case for each character.
-If no numeric interpretation is possible (note that all literal
-operands that are not numeric or boolean must be quoted with either
-braces or with double quotes), then an operand is left as a string
-(and only a limited set of operators may be applied to it).
-.PP
-Operands may be specified in any of the following ways:
+An expression consists of a combination of operands, operators, parentheses and
+commas, possibly with whitespace between any of these elements, which is
+ignored.
+An integer operand may be specified in decimal, binary
+(the first two characters are \fB0b\fR), octal
+(the first two characters are \fB0o\fR), or hexadecimal
+(the first two characters are \fB0x\fR) form. For
+compatibility with older Tcl releases, an operand that begins with \fB0\fR is
+interpreted as an octal integer even if the second character is not \fBo\fR.
+A floating-point number may be specified in any of several
+common decimal formats, and may use the decimal point \fB.\fR,
+\fBe\fR or \fBE\fR for scientific notation, and
+the sign characters \fB+\fR and \fB\-\fR. The
+following are all valid floating-point numbers: 2.1, 3., 6e4, 7.91e+16.
+The strings \fBInf\fR
+and \fBNaN\fR, in any combination of case, are also recognized as floating point
+values. An operand that doesn't have a numeric interpretation must be quoted
+with either braces or with double quotes.
+.PP
+An operand may be specified in any of the following ways:
.IP [1]
As a numeric value, either integer or floating-point.
.IP [2]
As a boolean value, using any form understood by \fBstring is\fR
\fBboolean\fR.
.IP [3]
-As a Tcl variable, using standard \fB$\fR notation.
-The variable's value will be used as the operand.
+As a variable, using standard \fB$\fR notation.
+The value of the variable is then the value of the operand.
.IP [4]
As a string enclosed in double-quotes.
-The expression parser will perform backslash, variable, and
-command substitutions on the information between the quotes,
-and use the resulting value as the operand
+Backslash, variable, and command substitution are performed as described in
+\fBTcl\fR.
.IP [5]
As a string enclosed in braces.
-The characters between the open brace and matching close brace
-will be used as the operand without any substitutions.
+The operand is treated as a braced value as described in \fBTcl\fR.
.IP [6]
As a Tcl command enclosed in brackets.
-The command will be executed and its result will be used as
-the operand.
+Command substitution is performed as described in \fBTcl\fR.
.IP [7]
-As a mathematical function whose arguments have any of the above
-forms for operands, such as \fBsin($x)\fR. See \fBMATH FUNCTIONS\fR below for
+As a mathematical function such as \fBsin($x)\fR, whose arguments have any of the above
+forms for operands. See \fBMATH FUNCTIONS\fR below for
a discussion of how mathematical functions are handled.
.PP
-Where the above substitutions occur (e.g. inside quoted strings), they
-are performed by the expression's instructions.
-However, the command parser may already have performed one round of
-substitution before the expression processor was called.
-As discussed below, it is usually best to enclose expressions
-in braces to prevent the command parser from performing substitutions
-on the contents.
+Because \fBexpr\fR parses and performs substitutions on values that have
+already been parsed and substituted by \fBTcl\fR, it is usually best to enclose
+expressions in braces to avoid the first round of substitutions by
+\fBTcl\fR.
.PP
-For some examples of simple expressions, suppose the variable
-\fBa\fR has the value 3 and
-the variable \fBb\fR has the value 6.
-Then the command on the left side of each of the lines below
-will produce the value on the right side of the line:
+Below are some examples of simple expressions where the value of \fBa\fR is 3
+and the value of \fBb\fR is 6. The command on the left side of each line
+produces the value on the right side.
.PP
.CS
.ta 6c
@@ -114,34 +104,41 @@ will produce the value on the right side of the line:
.CE
.SS OPERATORS
.PP
-The valid operators (most of which are also available as commands in
-the \fBtcl::mathop\fR namespace; see the \fBmathop\fR(n) manual page
-for details) are listed below, grouped in decreasing order of precedence:
+For operators having both a numeric mode and a string mode, the numeric mode is
+chosen when all operands have a numeric interpretation. The integer
+interpretation of an operand is preferred over the floating-point
+interpretation. To ensure string operations on arbitrary values it is generally a
+good idea to use \fBeq\fR, \fBne\fR, or the \fBstring\fR command instead of
+more versatile operators such as \fB==\fR.
+.PP
+Unless otherwise specified, operators accept non-numeric operands. The value
+of a boolean operation is 1 if true, 0 otherwise. See also \fBstring is\fR
+\fBboolean\fR. The valid operators, most of which are also available as
+commands in the \fBtcl::mathop\fR namespace (see \fBmathop\fR(n)), are listed
+below, grouped in decreasing order of precedence:
.TP 20
\fB\-\0\0+\0\0~\0\0!\fR
.
-Unary minus, unary plus, bit-wise NOT, logical NOT. None of these operators
-may be applied to string operands, and bit-wise NOT may be
-applied only to integers.
+Unary minus, unary plus, bit-wise NOT, logical NOT. These operators
+may only be applied to numeric operands, and bit-wise NOT may only be
+applied to integers.
.TP 20
\fB**\fR
.
-Exponentiation. Valid for any numeric operands.
+Exponentiation. Valid for numeric operands.
.TP 20
\fB*\0\0/\0\0%\fR
.
-Multiply, divide, remainder. None of these operators may be
-applied to string operands, and remainder may be applied only
-to integers.
-The remainder always has the same sign as the divisor and
-an absolute value smaller than the absolute value of the divisor.
+Multiply and divide, which are valid for numeric operands, and remainder, which
+is valid for integers. The remainder, an absolute value smaller than the
+absolute value of the divisor, has the same sign as the divisor.
.RS
.PP
-When applied to integers, the division and remainder operators can be
-considered to partition the number line into a sequence of equal-sized
-adjacent non-overlapping pieces where each piece is the size of the divisor;
-the division result identifies which piece the dividend lies within, and the
-remainder result identifies where within that piece the dividend lies. A
+When applied to integers, division and remainder can be
+considered to partition the number line into a sequence of
+adjacent non-overlapping pieces, where each piece is the size of the divisor;
+the quotient identifies which piece the dividend lies within, and the
+remainder identifies where within that piece the dividend lies. A
consequence of this is that the result of
.QW "-57 \fB/\fR 10"
is always -6, and the result of
@@ -151,177 +148,157 @@ is always 3.
.TP 20
\fB+\0\0\-\fR
.
-Add and subtract. Valid for any numeric operands.
+Add and subtract. Valid for numeric operands.
.TP 20
\fB<<\0\0>>\fR
.
-Left and right shift. Valid for integer operands only.
+Left and right shift. Valid for integers.
A right shift always propagates the sign bit.
.TP 20
\fB<\0\0>\0\0<=\0\0>=\fR
.
-Boolean less, greater, less than or equal, and greater than or equal.
-Each operator produces 1 if the condition is true, 0 otherwise.
-These operators may be applied to strings as well as numeric operands,
-in which case string comparison is used.
+Boolean less than, greater than, less than or equal, and greater than or equal.
.TP 20
\fB==\0\0!=\fR
.
-Boolean equal and not equal. Each operator produces a zero/one result.
-Valid for all operand types.
+Boolean equal and not equal.
.TP 20
\fBeq\0\0ne\fR
.
-Boolean string equal and string not equal. Each operator produces a
-zero/one result. The operand types are interpreted only as strings.
+Boolean string equal and string not equal.
.TP 20
\fBin\0\0ni\fR
.
-List containment and negated list containment. Each operator produces
-a zero/one result and treats its first argument as a string and its
-second argument as a Tcl list. The \fBin\fR operator indicates
-whether the first argument is a member of the second argument list;
-the \fBni\fR operator inverts the sense of the result.
+List containment and negated list containment. The first argument is
+interpreted as a string, the second as a list. \fBin\fR tests for membership
+in the list, and \fBni\fR is the inverse.
.TP 20
\fB&\fR
.
-Bit-wise AND. Valid for integer operands only.
+Bit-wise AND. Valid for integer operands.
.TP 20
\fB^\fR
.
-Bit-wise exclusive OR. Valid for integer operands only.
+Bit-wise exclusive OR. Valid for integer operands.
.TP 20
\fB|\fR
.
-Bit-wise OR. Valid for integer operands only.
+Bit-wise OR. Valid for integer operands.
.TP 20
\fB&&\fR
.
-Logical AND. Produces a 1 result if both operands are non-zero,
-0 otherwise.
-Valid for boolean and numeric (integers or floating-point) operands only.
+Logical AND. If both operands are true, the result is 1, or 0 otherwise.
+
.TP 20
\fB||\fR
.
-Logical OR. Produces a 0 result if both operands are zero, 1 otherwise.
-Valid for boolean and numeric (integers or floating-point) operands only.
+Logical OR. If both operands are false, the result is 0, or 1 otherwise.
.TP 20
\fIx\fB?\fIy\fB:\fIz\fR
.
-If-then-else, as in C. If \fIx\fR
-evaluates to non-zero, then the result is the value of \fIy\fR.
-Otherwise the result is the value of \fIz\fR.
-The \fIx\fR operand must have a boolean or numeric value.
-.PP
-See the C manual for more details on the results
-produced by each operator.
-The exponentiation operator promotes types like the multiply and
-divide operators, and produces a result that is the same as the output
-of the \fBpow\fR function (after any type conversions.)
-All of the binary operators but exponentiation group left-to-right
-within the same precedence level; exponentiation groups right-to-left. For example, the command
+If-then-else, as in C. If \fIx\fR is false , the result is the value of
+\fIy\fR. Otherwise the result is the value of \fIz\fR.
+.PP
+The exponentiation operator promotes types in the same way as the multiply
+and divide operators, and the result is is the same as the result of
+\fBpow\fR.
+exponentiation groups right-to-left within a precedence level. Other binary
+operators group left-to-right. For example, the value of
.PP
.CS
\fBexpr\fR {4*2 < 7}
.CE
.PP
-returns 0, while
+is 0, while the value of
.PP
.CS
\fBexpr\fR {2**3**2}
.CE
.PP
-returns 512.
+is 512.
.PP
-The \fB&&\fR, \fB||\fR, and \fB?:\fR operators have
+\fB&&\fR, \fB||\fR, and \fB?:\fR feature
.QW "lazy evaluation" ,
just as in C, which means that operands are not evaluated if they are
-not needed to determine the outcome. For example, in the command
+not needed to determine the outcome. For example, in
.PP
.CS
\fBexpr\fR {$v ? [a] : [b]}
.CE
.PP
-only one of
-.QW \fB[a]\fR
-or
-.QW \fB[b]\fR
-will actually be evaluated,
-depending on the value of \fB$v\fR. Note, however, that this is
-only true if the entire expression is enclosed in braces; otherwise
-the Tcl parser will evaluate both
-.QW \fB[a]\fR
-and
-.QW \fB[b]\fR
-before invoking the \fBexpr\fR command.
+only one of \fB[a]\fR or \fB[b]\fR is evaluated,
+depending on the value of \fB$v\fR. This is not true of the normal Tcl parser,
+so it is normally recommended to enclose the arguments to \fBexpr\fR in braces.
+Without braces, as in
+\fBexpr\fR $v ? [a] : [b]
+both \fB[a]\fR and \fB[b]\fR are evaluated before \fBexpr\fR is even called.
+.PP
+For more details on the results
+produced by each operator, see the documentation for C.
.SS "MATH FUNCTIONS"
.PP
-When the expression parser encounters a mathematical function
-such as \fBsin($x)\fR, it replaces it with a call to an ordinary
-Tcl function in the \fBtcl::mathfunc\fR namespace. The processing
-of an expression such as:
+A mathematical function such as \fBsin($x)\fR is replaced with a call to an ordinary
+Tcl command in the \fBtcl::mathfunc\fR namespace. The evaluation
+of an expression such as
.PP
.CS
\fBexpr\fR {sin($x+$y)}
.CE
.PP
-is the same in every way as the processing of:
+is the same in every way as the evaluation of
.PP
.CS
\fBexpr\fR {[tcl::mathfunc::sin [\fBexpr\fR {$x+$y}]]}
.CE
.PP
-which in turn is the same as the processing of:
+which in turn is the same as the evaluation of
.PP
.CS
tcl::mathfunc::sin [\fBexpr\fR {$x+$y}]
.CE
.PP
-The executor will search for \fBtcl::mathfunc::sin\fR using the usual
-rules for resolving functions in namespaces. Either
-\fB::tcl::mathfunc::sin\fR or \fB[namespace
-current]::tcl::mathfunc::sin\fR will satisfy the request, and others
-may as well (depending on the current \fBnamespace path\fR setting).
+\fBtcl::mathfunc::sin\fR is resolved as described in
+\fBNAMESPACE RESOLUTION\fR in the \fBnamespace\fR documentation. Given the
+default value of \fBnamespace path\fR, \fB[namespace
+current]::tcl::mathfunc::sin\fR or \fB::tcl::mathfunc::sin\fR are the typical
+resolutions.
.PP
-Some mathematical functions have several arguments, separated by commas like in C. Thus:
+As in C, a mathematical function may accept multiple arguments separated by commas. Thus,
.PP
.CS
\fBexpr\fR {hypot($x,$y)}
.CE
.PP
-ends up as
+becomes
.PP
.CS
tcl::mathfunc::hypot $x $y
.CE
.PP
-See the \fBmathfunc\fR(n) manual page for the math functions that are
+See the \fBmathfunc\fR(n) documentation for the math functions that are
available by default.
.SS "TYPES, OVERFLOW, AND PRECISION"
.PP
-All internal computations involving integers are done calling on the
-LibTomMath multiple precision integer library as required so that all
-integer calculations are performed exactly. Note that in Tcl releases
-prior to 8.5, integer calculations were performed with one of the C types
+When needed to guarantee exact performance, internal computations involving
+integers use the LibTomMath multiple precision integer library. In Tcl releases
+prior to 8.5, integer calculations were performed using one of the C types
\fIlong int\fR or \fITcl_WideInt\fR, causing implicit range truncation
in those calculations where values overflowed the range of those types.
-Any code that relied on these implicit truncations will need to explicitly
-add \fBint()\fR or \fBwide()\fR function calls to expressions at the points
-where such truncation is required to take place.
+Any code that relied on these implicit truncations should instead call
+\fBint()\fR or \fBwide()\fR, which do truncate.
.PP
-All internal computations involving floating-point are
-done with the C type \fIdouble\fR.
+Internal floating-point computations are
+performed using the C type \fIdouble\fR.
When converting a string to floating-point, exponent overflow is
detected and results in the \fIdouble\fR value of \fBInf\fR or
\fB\-Inf\fR as appropriate. Floating-point overflow and underflow
are detected to the degree supported by the hardware, which is generally
-pretty reliable.
+fairly reliable.
.PP
-Conversion among internal representations for integer, floating-point,
-and string operands is done automatically as needed.
-For arithmetic computations, integers are used until some
-floating-point number is introduced, after which floating-point is used.
-For example,
+Conversion among internal representations for integer, floating-point, and
+string operands is done automatically as needed. For arithmetic computations,
+integers are used until some floating-point number is introduced, after which
+floating-point values are used. For example,
.PP
.CS
\fBexpr\fR {5 / 4}
@@ -335,82 +312,62 @@ returns 1, while
.CE
.PP
both return 1.25.
-Floating-point values are always returned with a
+A floating-point result can be distinguished from an integer result by the
+presence of either
.QW \fB.\fR
-or an
+or
.QW \fBe\fR
-so that they will not look like integer values. For example,
+.PP
+. For example,
.PP
.CS
\fBexpr\fR {20.0/5.0}
.CE
.PP
returns \fB4.0\fR, not \fB4\fR.
-.SS "STRING OPERATIONS"
-.PP
-String values may be used as operands of the comparison operators,
-although the expression evaluator tries to do comparisons as integer
-or floating-point when it can,
-i.e., when all arguments to the operator allow numeric interpretations,
-except in the case of the \fBeq\fR and \fBne\fR operators.
-If one of the operands of a comparison is a string and the other
-has a numeric value, a canonical string representation of the numeric
-operand value is generated to compare with the string operand.
-Canonical string representation for integer values is a decimal string
-format. Canonical string representation for floating-point values
-is that produced by the \fB%g\fR format specifier of Tcl's
-\fBformat\fR command. For example, the commands
-.PP
-.CS
-\fBexpr\fR {"0x03" > "2"}
-\fBexpr\fR {"0y" > "0x12"}
-.CE
-.PP
-both return 1. The first comparison is done using integer
-comparison, and the second is done using string comparison.
-Because of Tcl's tendency to treat values as numbers whenever
-possible, it is not generally a good idea to use operators like \fB==\fR
-when you really want string comparison and the values of the
-operands could be arbitrary; it is better in these cases to use
-the \fBeq\fR or \fBne\fR operators, or the \fBstring\fR command instead.
.SH "PERFORMANCE CONSIDERATIONS"
.PP
-Enclose expressions in braces for the best speed and the smallest
-storage requirements.
-This allows the Tcl bytecode compiler to generate the best code.
-.PP
-As mentioned above, expressions are substituted twice:
-once by the Tcl parser and once by the \fBexpr\fR command.
-For example, the commands
+Where an expression contains syntax that Tcl would otherwise perform
+substitutions on, enclosing an expression in braces or otherwise quoting it
+so that it's a static value allows the Tcl compiler to generate bytecode for
+the expression, resulting in better speed and smaller storage requirements.
+This also avoids issues that can arise if Tcl is allowed to perform
+substitution on the value before \fBexpr\fR is called.
.PP
+In the following example, the value of the expression is 11 because the Tcl parser first
+substitutes \fB$b\fR and \fBexpr\fR then substitutes \fB$a\fR. Enclosing the
+expression in braces would result in a syntax error.
.CS
set a 3
set b {$a + 2}
\fBexpr\fR $b*4
.CE
.PP
-return 11, not a multiple of 4.
-This is because the Tcl parser will first substitute \fB$a + 2\fR for
-the variable \fBb\fR,
-then the \fBexpr\fR command will evaluate the expression \fB$a + 2*4\fR.
-.PP
-Most expressions do not require a second round of substitutions.
-Either they are enclosed in braces or, if not,
-their variable and command substitutions yield numbers or strings
-that do not themselves require substitutions.
-However, because a few unbraced expressions
-need two rounds of substitutions,
-the bytecode compiler must emit
-additional instructions to handle this situation.
-The most expensive code is required for
-unbraced expressions that contain command substitutions.
-These expressions must be implemented by generating new code
-each time the expression is executed.
-When the expression is unbraced to allow the substitution of a function or
-operator, consider using the commands documented in the \fBmathfunc\fR(n) or
-\fBmathop\fR(n) manual pages directly instead.
+
+When an expression is generated at runtime, like the one above is, the bytcode
+compiler must ensure that new code is generated each time the expression
+is evaluated. This is the most costly kind of expression from a performance
+perspective. In such cases, consider directly using the commands described in
+the \fBmathfunc\fR(n) or \fBmathop\fR(n) documentation instead of \fBexpr\fR.
+
+Most expressions are not formed at runtime, but are literal strings or contain
+substitutions that don't introduce other substitutions. To allow the bytecode
+compiler to work with an expression as a string literal at compilation time,
+ensure that it contains no substitutions or that it is enclosed in braces or
+otherwise quoted to prevent Tcl from performing substitutions, allowing
+\fBexpr\fR to perform them instead.
.SH EXAMPLES
.PP
+A numeric comparison whose result is 1:
+.CS
+\fBexpr\fR {"0x03" > "2"}
+.CE
+.PP
+A string comparison whose result is 1:
+.CS
+\fBexpr\fR {"0y" > "0x12"}
+.CE
+.PP
Define a procedure that computes an
.QW interesting
mathematical function:
@@ -444,8 +401,8 @@ each other:
puts "a and b are [\fBexpr\fR {$a eq $b ? {equal} : {different}}]"
.CE
.PP
-Set a variable to whether an environment variable is both defined at
-all and also set to a true boolean value:
+Set a variable indicating whether an environment variable is defined and has
+value of true:
.PP
.CS
set isTrue [\fBexpr\fR {