@c Copyright (C) 1999, 2000 Free Software Foundation, Inc. @c This is part of the GAS manual. @c For copying conditions, see the file as.texinfo. @c TI TMS320C54X description by Timothy Wall, twall@cygnus.com @ifset GENERIC @page @node C54X-Dependent @chapter C54X Dependent Features @end ifset @ifclear GENERIC @node Machine Dependencies @chapter C54X Dependent Features @end ifclear @cindex C54X support @menu * C54X-Opts:: Command-line Options * C54X-Block:: Blocking * C54X-Env:: Environment Settings * C54X-Constants:: Constants Syntax * C54X-Subsyms:: String Substitution * C54X-Locals:: Local Label Syntax * C54X-Builtins:: Builtin Assembler Math Functions * C54X-Ext:: Extended Addressing Support * C54X-Directives:: Directives * C54X-Macros:: Macro Features * C54X-MMRegs:: Memory-mapped Registers @end menu @node C54X-Opts @section Options @cindex options, C54X @cindex C54X options The 'c54x version of @code{@value{AS}} has a few machine-dependent options. @cindex @samp{-mfar-mode} option, far-mode @cindex @samp{-mf} option, far-mode You can use the @samp{-mfar-mode} option to enable extended addressing mode. All addresses will be assumed to be > 16 bits, and the appropriate relocation types will be used. This option is equivalent to using the @samp{.far_mode} directive in the assembly code. If you do not use the @samp{-mfar-mode} option, all references will be assumed to be 16 bits. This option may be abbreviated to @samp{-mf}. @cindex @samp{-mcpu} option, cpu You can use the @samp{-mcpu} option to specify a particular CPU. This option is equivalent to using the @samp{.version} directive in the assembly code. For recognized CPU codes, see @xref{C54X-Directives,,@code{.version}}. The default CPU version is @samp{542}. @cindex @samp{-merrors-to-file} option, stderr redirect @cindex @samp{-me} option, stderr redirect You can use the @samp{-merrors-to-file} option to redirect error output to a file (this provided for those deficient environments which don't provide adequate output redirection). This option may be abbreviated to @samp{-me}. @node C54X-Block @section Blocking A blocked section or memory block is guaranteed not to cross the blocking boundary (usually a page, or 128 words) if it is smaller than the blocking size, or to start on a page boundary if it is larger than the blocking size. @node C54X-Env @section Environment Settings @cindex environment settings, C54X @cindex @samp{A_DIR} environment variable, C54X @cindex @samp{C54XDSP_DIR} environment variable, C54X @samp{C54XDSP_DIR} and @samp{A_DIR} are semicolon-separated paths which are added to the list of directories normally searched for source and include files. @samp{C54XDSP_DIR} will override @samp{A_DIR}. @node C54X-Constants @section Constants Syntax @cindex constants, C54X The C54X version of @code{@value{AS}} allows the following additional constant formats, using a suffix to indicate the radix: @smallexample @cindex binary constants, C54X Binary @code{000000B, 011000b} Octal @code{10Q, 224q} Hexadecimal @code{45h, 0FH} @end smallexample @node C54X-Subsyms @section String Substitution A subset of allowable symbols (which we'll call subsyms) may be assigned arbitrary string values. This is roughly equivalent to C preprocessor #define macros. When @code{@value{AS}} encounters one of these symbols, the symbol is replaced in the input stream by its string value. Subsym names @strong{must} begin with a letter. Subsyms may be defined using the @code{.asg} and @code{.eval} directives (@xref{C54X-Directives,,@code{.asg}}, @xref{C54X-Directives,,@code{.eval}}. Expansion is recursive until a previously encountered symbol is seen, at which point substitution stops. In this example, x is replaced with SYM2; SYM2 is replaced with SYM1, and SYM1 is replaced with x. At this point, x has already been encountered and the substitution stops. @smallexample @code .asg "x",SYM1 .asg "SYM1",SYM2 .asg "SYM2",x add x,a ; final code assembled is "add x, a" @end smallexample Macro parameters are converted to subsyms; a side effect of this is the normal @code{@value{AS}} '\ARG' dereferencing syntax is unnecessary. Subsyms defined within a macro will have global scope, unless the @code{.var} directive is used to identify the subsym as a local macro variable @pxref{C54X-Directives,,@code{.var}}. Substitution may be forced in situations where replacement might be ambiguous by placing colons on either side of the subsym. The following code: @smallexample @code .eval "10",x LAB:X: add #x, a @end smallexample When assembled becomes: @smallexample @code LAB10 add #10, a @end smallexample Smaller parts of the string assigned to a subsym may be accessed with the following syntax: @table @code @item @code{:@var{symbol}(@var{char_index}):} Evaluates to a single-character string, the character at @var{char_index}. @item @code{:@var{symbol}(@var{start},@var{length}):} Evaluates to a substring of @var{symbol} beginning at @var{start} with length @var{length}. @end table @node C54X-Locals @section Local Labels Local labels may be defined in two ways: @itemize @bullet @item $N, where N is a decimal number between 0 and 9 @item LABEL?, where LABEL is any legal symbol name. @end itemize Local labels thus defined may be redefined or automatically generated. The scope of a local label is based on when it may be undefined or reset. This happens when one of the following situations is encountered: @itemize @bullet @item .newblock directive @pxref{C54X-Directives,,@code{.newblock}} @item The current section is changed (.sect, .text, or .data) @item Entering or leaving an included file @item The macro scope where the label was defined is exited @end itemize @node C54X-Builtins @section Math Builtins @cindex math builtins, C54X @cindex C54X builtin math functions @cindex builtin math functions, C54X The following built-in functions may be used to generate a floating-point value. All return a floating-point value except @samp{$cvi}, @samp{$int}, and @samp{$sgn}, which return an integer value. @table @code @cindex @code{$acos} math builtin, C54X @item @code{$acos(@var{expr})} Returns the floating point arccosine of @var{expr}. @cindex @code{$asin} math builtin, C54X @item @code{$asin(@var{expr})} Returns the floating point arcsine of @var{expr}. @cindex @code{$atan} math builtin, C54X @item @code{$atan(@var{expr})} Returns the floating point arctangent of @var{expr}. @cindex @code{$atan2} math builtin, C54X @item @code{$atan2(@var{expr1},@var{expr2})} Returns the floating point arctangent of @var{expr1} / @var{expr2}. @cindex @code{$ceil} math builtin, C54X @item @code{$ceil(@var{expr})} Returns the smallest integer not less than @var{expr} as floating point. @cindex @code{$cosh} math builtin, C54X @item @code{$cosh(@var{expr})} Returns the floating point hyperbolic cosine of @var{expr}. @cindex @code{$cos} math builtin, C54X @item @code{$cos(@var{expr})} Returns the floating point cosine of @var{expr}. @cindex @code{$cvf} math builtin, C54X @item @code{$cvf(@var{expr})} Returns the integer value @var{expr} converted to floating-point. @cindex @code{$cvi} math builtin, C54X @item @code{$cvi(@var{expr})} Returns the floating point value @var{expr} converted to integer. @cindex @code{$exp} math builtin, C54X @item @code{$exp(@var{expr})} Returns the floating point value e ^ @var{expr}. @cindex @code{$fabs} math builtin, C54X @item @code{$fabs(@var{expr})} Returns the floating point absolute value of @var{expr}. @cindex @code{$floor} math builtin, C54X @item @code{$floor(@var{expr})} Returns the largest integer that is not greater than @var{expr} as floating point. @cindex @code{$fmod} math builtin, C54X @item @code{$fmod(@var{expr1},@var{expr2})} Returns the floating point remainder of @var{expr1} / @var{expr2}. @cindex @code{$int} math builtin, C54X @item @code{$int(@var{expr})} Returns 1 if @var{expr} evaluates to an integer, zero otherwise. @cindex @code{$ldexp} math builtin, C54X @item @code{$ldexp(@var{expr1},@var{expr2})} Returns the floating point value @var{expr1} * 2 ^ @var{expr2}. @cindex @code{$log10} math builtin, C54X @item @code{$log10(@var{expr})} Returns the base 10 logarithm of @var{expr}. @cindex @code{$log} math builtin, C54X @item @code{$log(@var{expr})} Returns the natural logarithm of @var{expr}. @cindex @code{$max} math builtin, C54X @item @code{$max(@var{expr1},@var{expr2})} Returns the floating point maximum of @var{expr1} and @var{expr2}. @cindex @code{$min} math builtin, C54X @item @code{$min(@var{expr1},@var{expr2})} Returns the floating point minimum of @var{expr1} and @var{expr2}. @cindex @code{$pow} math builtin, C54X @item @code{$pow(@var{expr1},@var{expr2})} Returns the floating point value @var{expr1} ^ @var{expr2}. @cindex @code{$round} math builtin, C54X @item @code{$round(@var{expr})} Returns the nearest integer to @var{expr} as a floating point number. @cindex @code{$sgn} math builtin, C54X @item @code{$sgn(@var{expr})} Returns -1, 0, or 1 based on the sign of @var{expr}. @cindex @code{$sin} math builtin, C54X @item @code{$sin(@var{expr})} Returns the floating point sine of @var{expr}. @cindex @code{$sinh} math builtin, C54X @item @code{$sinh(@var{expr})} Returns the floating point hyperbolic sine of @var{expr}. @cindex @code{$sqrt} math builtin, C54X @item @code{$sqrt(@var{expr})} Returns the floating point square root of @var{expr}. @cindex @code{$tan} math builtin, C54X @item @code{$tan(@var{expr})} Returns the floating point tangent of @var{expr}. @cindex @code{$tanh} math builtin, C54X @item @code{$tanh(@var{expr})} Returns the floating point hyperbolic tangent of @var{expr}. @cindex @code{$trunc} math builtin, C54X @item @code{$trunc(@var{expr})} Returns the integer value of @var{expr} truncated towards zero as floating point. @end table @node C54X-Ext @section Extended Addressing The @code{LDX} pseudo-op is provided for loading the extended addressing bits of a label or address. For example, if an address @code{_label} resides in extended program memory, the value of @code{_label} may be loaded as follows: @smallexample @code ldx #_label,16,a ; loads extended bits of _label or #_label,a ; loads lower 16 bits of _label bacc a ; full address is in accumulator A @end smallexample @node C54X-Directives @section Directives @cindex machine directives, C54X @cindex C54X machine directives @table @code @cindex @code{align} directive, C54X @cindex @code{even} directive, C54X @item .align [@var{size}] @itemx .even Align the section program counter on the next boundary, based on @var{size}. @var{size} may be any power of 2. @code{.even} is equivalent to @code{.align} with a @var{size} of 2. @table @code @item 1 Align SPC to word boundary @item 2 Align SPC to longword boundary (same as .even) @item 128 Align SPC to page boundary @end table @cindex @code{asg} directive, C54X @item .asg @var{string}, @var{name} Assign @var{name} the string @var{string}. String replacement is performed on @var{string} before assignment. @cindex @code{eval} directive, C54X @itemx .eval @var{string}, @var{name} Evaluate the contents of string @var{string} and assign the result as a string to the subsym @var{name}. String replacement is performed on @var{string} before assignment. @cindex @code{bss} directive, C54X @item .bss @var{symbol}, @var{size} [, [@var{blocking_flag}] [,@var{alignment_flag}]] Reserve space for @var{symbol} in the .bss section. @var{size} is in words. If present, @var{blocking_flag} indicates the allocated space should be aligned on a page boundary if it would otherwise cross a page boundary. If present, @var{alignment_flag} causes the assembler to allocate @var{size} on a long word boundary. @cindex @code{byte} directive, C54X @cindex @code{ubyte} directive, C54X @cindex @code{char} directive, C54X @cindex @code{uchar} directive, C54X @item .byte @var{value} [,...,@var{value_n}] @itemx .ubyte @var{value} [,...,@var{value_n}] @itemx .char @var{value} [,...,@var{value_n}] @itemx .uchar @var{value} [,...,@var{value_n}] Place one or more bytes into consecutive words of the current section. The upper 8 bits of each word is zero-filled. If a label is used, it points to the word allocated for the first byte encountered. @cindex @code{clink} directive, C54X @item .clink ["@var{section_name}"] Set STYP_CLINK flag for this section, which indicates to the linker that if no symbols from this section are referenced, the section should not be included in the link. If @var{section_name} is omitted, the current section is used. @cindex @code{c_mode} directive, C54X @item .c_mode TBD. @cindex @code{copy} directive, C54X @item .copy "@var{filename}" | @var{filename} @itemx .include "@var{filename}" | @var{filename} Read source statements from @var{filename}. The normal include search path is used. Normally .copy will cause statements from the included file to be printed in the assembly listing and .include will not, but this distinction is not currently implemented. @cindex @code{data} directive, C54X @item .data Begin assembling code into the .data section. @cindex @code{double} directive, C54X @cindex @code{ldouble} directive, C54X @cindex @code{float} directive, C54X @cindex @code{xfloat} directive, C54X @item .double @var{value} [,...,@var{value_n}] @itemx .ldouble @var{value} [,...,@var{value_n}] @itemx .float @var{value} [,...,@var{value_n}] @itemx .xfloat @var{value} [,...,@var{value_n}] Place an IEEE single-precision floating-point representation of one or more floating-point values into the current section. All but @code{.xfloat} align the result on a longword boundary. Values are stored most-significant word first. @cindex @code{drlist} directive, C54X @cindex @code{drnolist} directive, C54X @item .drlist @itemx .drnolist Control printing of directives to the listing file. Ignored. @cindex @code{emsg} directive, C54X @cindex @code{mmsg} directive, C54X @cindex @code{wmsg} directive, C54X @item .emsg @var{string} @itemx .mmsg @var{string} @itemx .wmsg @var{string} Emit a user-defined error, message, or warning, respectively. @cindex @code{far_mode} directive, C54X @item .far_mode Use extended addressing when assembling statements. This should appear only once per file, and is equivalent to the -mfar-mode option @pxref{C54X-Opts,,@code{-mfar-mode}}. @cindex @code{fclist} directive, C54X @cindex @code{fcnolist} directive, C54X @item .fclist @itemx .fcnolist Control printing of false conditional blocks to the listing file. @cindex @code{field} directive, C54X @item .field @var{value} [,@var{size}] Initialize a bitfield of @var{size} bits in the current section. If @var{value} is relocatable, then @var{size} must be 16. @var{size} defaults to 16 bits. If @var{value} does not fit into @var{size} bits, the value will be truncated. Successive @code{.field} directives will pack starting at the current word, filling the most significant bits first, and aligning to the start of the next word if the field size does not fit into the space remaining in the current word. A @code{.align} directive with an operand of 1 will force the next @code{.field} directive to begin packing into a new word. If a label is used, it points to the word that contains the specified field. @cindex @code{global} directive, C54X @cindex @code{def} directive, C54X @cindex @code{ref} directive, C54X @item .global @var{symbol} [,...,@var{symbol_n}] @itemx .def @var{symbol} [,...,@var{symbol_n}] @itemx .ref @var{symbol} [,...,@var{symbol_n}] @code{.def} nominally identifies a symbol defined in the current file and availalbe to other files. @code{.ref} identifies a symbol used in the current file but defined elsewhere. Both map to the standard @code{.global} directive. @cindex @code{half} directive, C54X @cindex @code{uhalf} directive, C54X @cindex @code{short} directive, C54X @cindex @code{ushort} directive, C54X @cindex @code{int} directive, C54X @cindex @code{uint} directive, C54X @cindex @code{word} directive, C54X @cindex @code{uword} directive, C54X @item .half @var{value} [,...,@var{value_n}] @itemx .uhalf @var{value} [,...,@var{value_n}] @itemx .short @var{value} [,...,@var{value_n}] @itemx .ushort @var{value} [,...,@var{value_n}] @itemx .int @var{value} [,...,@var{value_n}] @itemx .uint @var{value} [,...,@var{value_n}] @itemx .word @var{value} [,...,@var{value_n}] @itemx .uword @var{value} [,...,@var{value_n}] Place one or more values into consecutive words of the current section. If a label is used, it points to the word allocated for the first value encountered. @cindex @code{label} directive, C54X @item .label @var{symbol} Define a special @var{symbol} to refer to the load time address of the current section program counter. @cindex @code{length} directive, C54X @cindex @code{width} directive, C54X @item .length @itemx .width Set the page length and width of the output listing file. Ignored. @cindex @code{list} directive, C54X @cindex @code{nolist} directive, C54X @item .list @itemx .nolist Control whether the source listing is printed. Ignored. @cindex @code{long} directive, C54X @cindex @code{ulong} directive, C54X @cindex @code{xlong} directive, C54X @item .long @var{value} [,...,@var{value_n}] @itemx .ulong @var{value} [,...,@var{value_n}] @itemx .xlong @var{value} [,...,@var{value_n}] Place one or more 32-bit values into consecutive words in the current section. The most significant word is stored first. @code{.long} and @code{.ulong} align the result on a longword boundary; @code{xlong} does not. @cindex @code{loop} directive, C54X @cindex @code{break} directive, C54X @cindex @code{endloop} directive, C54X @item .loop [@var{count}] @itemx .break [@var{condition}] @itemx .endloop Repeatedly assemble a block of code. @code{.loop} begins the block, and @code{.endloop} marks its termination. @var{count} defaults to 1024, and indicates the number of times the block should be repeated. @code{.break} terminates the loop so that assembly begins after the @code{.endloop} directive. The optional @var{condition} will cause the loop to terminate only if it evaluates to zero. @cindex @code{macro} directive, C54X @cindex @code{endm} directive, C54X @item @var{macro_name} .macro [@var{param1}][,...@var{param_n}] @itemx [.mexit] @itemx .endm See the section on macros for more explanation (@xref{C54X-Macros}. @cindex @code{mlib} directive, C54X @item .mlib "@var{filename}" | @var{filename} Load the macro library @var{filename}. @var{filename} must be an archived library (BFD ar-compatible) of text files, expected to contain only macro definitions. The standard include search path is used. @cindex @code{mlist} directive, C54X @cindex @code{mnolist} directive, C54X @item .mlist @item .mnolist Control whether to include macro and loop block expansions in the listing output. Ignored. @cindex @code{mmregs} directive, C54X @item .mmregs Define global symbolic names for the 'c54x registers. Supposedly equivalent to executing @code{.set} directives for each register with its memory-mapped value, but in reality is provided only for compatibility and does nothing. @cindex @code{newblock} directive, C54X @item .newblock This directive resets any C54X local labels currently defined. Normal @code{@value{AS}} local labels are unaffected. @cindex @code{option} directive, C54X @item .option @var{option_list} Set listing options. Ignored. @cindex @code{sblock} directive, C54X @item .sblock "@var{section_name}" | @var{section_name} [,"@var{name_n}" | @var{name_n}] Designate @var{section_name} for blocking. Blocking guarantees that a section will start on a page boundary (128 words) if it would otherwise cross a page boundary. Only initialized sections may be designated with this directive. See also @xref{C54X-Block}. @cindex @code{sect} directive, C54X @item .sect "@var{section_name}" Define a named initialized section and make it the current section. @cindex @code{set} directive, C54X @cindex @code{equ} directive, C54X @item @var{symbol} .set "@var{value}" @itemx @var{symbol} .equ "@var{value}" Equate a constant @var{value} to a @var{symbol}, which is placed in the symbol table. @var{symbol} may not be previously defined. @cindex @code{space} directive, C54X @cindex @code{bes} directive, C54X @item .space @var{size_in_bits} @itemx .bes @var{size_in_bits} Reserve the given number of bits in the current section and zero-fill them. If a label is used with @code{.space}, it points to the @strong{first} word reserved. With @code{.bes}, the label points to the @strong{last} word reserved. @cindex @code{sslist} directive, C54X @cindex @code{ssnolist} directive, C54X @item .sslist @itemx .ssnolist Controls the inclusion of subsym replacement in the listing output. Ignored. @cindex @code{string} directive, C54X @cindex @code{pstring} directive, C54X @item .string "@var{string}" [,...,"@var{string_n}"] @itemx .pstring "@var{string}" [,...,"@var{string_n}"] Place 8-bit characters from @var{string} into the current section. @code{.string} zero-fills the upper 8 bits of each word, while @code{.pstring} puts two characters into each word, filling the most-significant bits first. Unused space is zero-filled. If a label is used, it points to the first word initialized. @cindex @code{struct} directive, C54X @cindex @code{tag} directive, C54X @cindex @code{endstruct} directive, C54X @item [@var{stag}] .struct [@var{offset}] @itemx [@var{name_1}] element [@var{count_1}] @itemx [@var{name_2}] element [@var{count_2}] @itemx [@var{tname}] .tag @var{stagx} [@var{tcount}] @itemx ... @itemx [@var{name_n}] element [@var{count_n}] @itemx [@var{ssize}] .endstruct @itemx @var{label} .tag [@var{stag}] Assign symbolic offsets to the elements of a structure. @var{stag} defines a symbol to use to reference the structure. @var{offset} indicates a starting value to use for the first element encountered; otherwise it defaults to zero. Each element can have a named offset, @var{name}, which is a symbol assigned the value of the element's offset into the structure. If @var{stag} is missing, these become global symbols. @var{count} adjusts the offset that many times, as if @code{element} were an array. @code{element} may be one of @code{.byte}, @code{.word}, @code{.long}, @code{.float}, or any equivalent of those, and the structure offset is adjusted accordingly. @code{.field} and @code{.string} are also allowed; the size of @code{.field} is one bit, and @code{.string} is considered to be one word in size. Only element descriptors, structure/union tags, @code{.align} and conditioanl assembly directies are allowed within @code{.struct}/@code{.endstruct}. @code{.align} aligns member offsets to word boundaries only. @var{ssize}, if provided, will always be assigned the size of the structure. The @code{.tag} directive, in addition to being used to define a structure/union element within a structure, may be used to apply a structure to a symbol. Once applied to @var{label}, the individual structure elements may be applied to @var{label} to produce the desired offsets using @var{label} as the structure base. @cindex @code{tab} directive, C54X @item .tab Set the tab size in the output listing. Ignored. @cindex @code{union} directive, C54X @cindex @code{tag} directive, C54X @cindex @code{endunion} directive, C54X @item [@var{utag}] .union @itemx [@var{name_1}] element [@var{count_1}] @itemx [@var{name_2}] element [@var{count_2}] @itemx [@var{tname}] .tag @var{utagx}[,@var{tcount}] @itemx ... @itemx [@var{name_n}] element [@var{count_n}] @itemx [@var{usize}] .endstruct @itemx @var{label} .tag [@var{utag}] Similar to @code{.struct}, but the offset after each element is reset to zero, and the @var{usize} is set to the maximum of all defined elements. Starting offset for the union is always zero. @cindex @code{usect} directive, C54X @item [@var{symbol}] .usect "@var{section_name}", @var{size}, [,[@var{blocking_flag}] [,@var{alignment_flag}]] Reserve space for variables in a named, uninitialzed section (similar to .bss). @code{.usect} allows definitions sections independent of .bss. @var{symbol} points to the first location reserved by this allocation. The symbol may be used as a variable name. @var{size} is the allocated size in words. @var{blocking_flag} indicates whether to block this section on a page boundary (128 words) (@pxref{C54X-Block}). @var{alignment flag} indicates whether the section should be longword-aligned. @cindex @code{var} directive, C54X @item .var @var{sym}[,..., @var{sym_n}] Define a subsym to be a local variable within a macro. See @xref{C54X-Macros}. @cindex @code{version} directive, C54X @item .version @var{version} Set which processor to build instructions for. Though the following values are accepted, the op is ignored. @table @code @item 541 @itemx 542 @itemx 543 @itemx 545 @itemx 545LP @itemx 546LP @itemx 548 @itemx 549 @end table @end table @node C54X-Macros @section Macros @cindex C54X-specific macros @cindex macros, C54X Macros do not require explicit dereferencing of arguments (i.e. \ARG). During macro expansion, the macro parameters are converted to subsyms. If the number of arguments passed the macro invocation exceeds the number of parameters defined, the last parameter is assigned the string equivalent of all remaining arguments. If fewer arguments are given than parameters, the missing parameters are assigned empty strings. To include a comma in an argument, you must enclose the agument in quotes. @cindex subsym builtins, C54X @cindex C54X subsym builtins @cindex builtin subsym functions, C54X The following built-in subsym functions allow examination of the string value of subsyms (or ordinary strings). The arguments are strings unless otherwise indicated (subsyms passed as args will be replaced by the strings they represent). @table @code @cindex @code{$symlen} subsym builtin, C54X @item @code{$symlen(@var{str})} Returns the length of @var{str}. @cindex @code{$symcmp} subsym builtin, C54X @item @code{$symcmp(@var{str1},@var{str2})} Returns 0 if @var{str1} == @var{str2}, non-zero otherwise. @cindex @code{$firstch} subsym builtin, C54X @item @code{$firstch(@var{str},@var{ch})} Returns index of the first occurrence of character constant @var{ch} in @var{str}. @cindex @code{$lastch} subsym builtin, C54X @item @code{$lastch(@var{str},@var{ch})} Returns index of the last occurrence of character constant @var{ch} in @var{str}. @cindex @code{$isdefed} subsym builtin, C54X @item @code{$isdefed(@var{symbol})} Returns zero if the symbol @var{symbol} is not in the symbol table, non-zero otherwise. @cindex @code{$ismember} subsym builtin, C54X @item @code{$ismember(@var{symbol},@var{list})} Assign the first member of comma-separated string @var{list} to @var{symbol}; @var{list} is reassigned the remainder of the list. Returns zero if @var{list} is a null string. Both arguments must be subsyms. @cindex @code{$iscons} subsym builtin, C54X @item @code{$iscons(@var{expr})} Returns 1 if string @var{expr} is binary, 2 if octal, 3 if hexadecimal, 4 if a character, 5 if decimal, and zero if not an integer. @cindex @code{$isname} subsym builtin, C54X @item @code{$isname(@var{name})} Returns 1 if @var{name} is a valid symbol name, zero otherwise. @cindex @code{$isreg} subsym builtin, C54X @item @code{$isreg(@var{reg})} Returns 1 if @var{reg} is a valid predefined register name (AR0-AR7 only). @cindex @code{$structsz} subsym builtin, C54X @item @code{$structsz(@var{stag})} Returns the size of the structure or union represented by @var{stag}. @cindex @code{$structacc} subsym builtin, C54X @item @code{$structacc(@var{stag})} Returns the reference point of the structure or union represented by @var{stag}. Always returns zero. @end table @node C54X-MMRegs @section Memory-mapped Registers @cindex C54X memory-mapped registers @cindex registers, C54X memory-mapped @cindex memory-mapped registers, C54X The following symbols are recognized as memory-mapped registers: @table @code @end table