lix/src/libexpr/lexer.l
Eelco Dolstra 81e7c40264 Optimize primop calls
We now parse function applications as a vector of arguments rather
than as a chain of binary applications, e.g. 'substring 1 2 "foo"' is
parsed as

  ExprCall { .fun = <substring>, .args = [ <1>, <2>, <"foo"> ] }

rather than

  ExprApp (ExprApp (ExprApp <substring> <1>) <2>) <"foo">

This allows primops to be called immediately (if enough arguments are
supplied) without having to allocate intermediate tPrimOpApp values.

On

  $ nix-instantiate --dry-run '<nixpkgs/nixos/release-combined.nix>' -A nixos.tests.simple.x86_64-linux

this gives a substantial performance improvement:

  user CPU time:      median =      0.9209  mean =      0.9218  stddev =      0.0073  min =      0.9086  max =      0.9340  [rejected, p=0.00000, Δ=-0.21433±0.00677]
  elapsed time:       median =      1.0585  mean =      1.0584  stddev =      0.0024  min =      1.0523  max =      1.0623  [rejected, p=0.00000, Δ=-0.20594±0.00236]

because it reduces the number of tPrimOpApp allocations from 551990 to
42534 (i.e. only small minority of primop calls are partially
applied) which in turn reduces time spent in the garbage collector.
2021-11-04 15:03:40 +01:00

297 lines
7.7 KiB
Plaintext

%option reentrant bison-bridge bison-locations
%option noyywrap
%option never-interactive
%option stack
%option nodefault
%option nounput noyy_top_state
%s DEFAULT
%x STRING
%x IND_STRING
%x INPATH
%x INPATH_SLASH
%x PATH_START
%{
#ifdef __clang__
#pragma clang diagnostic ignored "-Wunneeded-internal-declaration"
#endif
#include <boost/lexical_cast.hpp>
#include "nixexpr.hh"
#include "parser-tab.hh"
using namespace nix;
namespace nix {
// backup to recover from yyless(0)
YYLTYPE prev_yylloc;
static void initLoc(YYLTYPE * loc)
{
loc->first_line = loc->last_line = 1;
loc->first_column = loc->last_column = 1;
}
static void adjustLoc(YYLTYPE * loc, const char * s, size_t len)
{
prev_yylloc = *loc;
loc->first_line = loc->last_line;
loc->first_column = loc->last_column;
for (size_t i = 0; i < len; i++) {
switch (*s++) {
case '\r':
if (*s == '\n') { /* cr/lf */
i++;
s++;
}
/* fall through */
case '\n':
++loc->last_line;
loc->last_column = 1;
break;
default:
++loc->last_column;
}
}
}
// FIXME: optimize
static Expr * unescapeStr(SymbolTable & symbols, const char * s, size_t length)
{
string t;
t.reserve(length);
char c;
while ((c = *s++)) {
if (c == '\\') {
assert(*s);
c = *s++;
if (c == 'n') t += '\n';
else if (c == 'r') t += '\r';
else if (c == 't') t += '\t';
else t += c;
}
else if (c == '\r') {
/* Normalise CR and CR/LF into LF. */
t += '\n';
if (*s == '\n') s++; /* cr/lf */
}
else t += c;
}
return new ExprString(symbols.create(t));
}
}
#define YY_USER_INIT initLoc(yylloc)
#define YY_USER_ACTION adjustLoc(yylloc, yytext, yyleng);
#define PUSH_STATE(state) yy_push_state(state, yyscanner)
#define POP_STATE() yy_pop_state(yyscanner)
%}
ANY .|\n
ID [a-zA-Z\_][a-zA-Z0-9\_\'\-]*
INT [0-9]+
FLOAT (([1-9][0-9]*\.[0-9]*)|(0?\.[0-9]+))([Ee][+-]?[0-9]+)?
PATH_CHAR [a-zA-Z0-9\.\_\-\+]
PATH {PATH_CHAR}*(\/{PATH_CHAR}+)+\/?
PATH_SEG {PATH_CHAR}*\/
HPATH \~(\/{PATH_CHAR}+)+\/?
HPATH_START \~\/
SPATH \<{PATH_CHAR}+(\/{PATH_CHAR}+)*\>
URI [a-zA-Z][a-zA-Z0-9\+\-\.]*\:[a-zA-Z0-9\%\/\?\:\@\&\=\+\$\,\-\_\.\!\~\*\']+
%%
if { return IF; }
then { return THEN; }
else { return ELSE; }
assert { return ASSERT; }
with { return WITH; }
let { return LET; }
in { return IN; }
rec { return REC; }
inherit { return INHERIT; }
or { return OR_KW; }
\.\.\. { return ELLIPSIS; }
\=\= { return EQ; }
\!\= { return NEQ; }
\<\= { return LEQ; }
\>\= { return GEQ; }
\&\& { return AND; }
\|\| { return OR; }
\-\> { return IMPL; }
\/\/ { return UPDATE; }
\+\+ { return CONCAT; }
{ID} { yylval->id = strdup(yytext); return ID; }
{INT} { errno = 0;
try {
yylval->n = boost::lexical_cast<int64_t>(yytext);
} catch (const boost::bad_lexical_cast &) {
throw ParseError("invalid integer '%1%'", yytext);
}
return INT;
}
{FLOAT} { errno = 0;
yylval->nf = strtod(yytext, 0);
if (errno != 0)
throw ParseError("invalid float '%1%'", yytext);
return FLOAT;
}
\$\{ { PUSH_STATE(DEFAULT); return DOLLAR_CURLY; }
\} { /* State INITIAL only exists at the bottom of the stack and is
used as a marker. DEFAULT replaces it everywhere else.
Popping when in INITIAL state causes an empty stack exception,
so don't */
if (YYSTATE != INITIAL)
POP_STATE();
return '}';
}
\{ { PUSH_STATE(DEFAULT); return '{'; }
\" { PUSH_STATE(STRING); return '"'; }
<STRING>([^\$\"\\]|\$[^\{\"\\]|\\{ANY}|\$\\{ANY})*\$/\" |
<STRING>([^\$\"\\]|\$[^\{\"\\]|\\{ANY}|\$\\{ANY})+ {
/* It is impossible to match strings ending with '$' with one
regex because trailing contexts are only valid at the end
of a rule. (A sane but undocumented limitation.) */
yylval->e = unescapeStr(data->symbols, yytext, yyleng);
return STR;
}
<STRING>\$\{ { PUSH_STATE(DEFAULT); return DOLLAR_CURLY; }
<STRING>\" { POP_STATE(); return '"'; }
<STRING>\$|\\|\$\\ {
/* This can only occur when we reach EOF, otherwise the above
(...|\$[^\{\"\\]|\\.|\$\\.)+ would have triggered.
This is technically invalid, but we leave the problem to the
parser who fails with exact location. */
return STR;
}
\'\'(\ *\n)? { PUSH_STATE(IND_STRING); return IND_STRING_OPEN; }
<IND_STRING>([^\$\']|\$[^\{\']|\'[^\'\$])+ {
yylval->e = new ExprIndStr(yytext);
return IND_STR;
}
<IND_STRING>\'\'\$ |
<IND_STRING>\$ {
yylval->e = new ExprIndStr("$");
return IND_STR;
}
<IND_STRING>\'\'\' {
yylval->e = new ExprIndStr("''");
return IND_STR;
}
<IND_STRING>\'\'\\{ANY} {
yylval->e = unescapeStr(data->symbols, yytext + 2, yyleng - 2);
return IND_STR;
}
<IND_STRING>\$\{ { PUSH_STATE(DEFAULT); return DOLLAR_CURLY; }
<IND_STRING>\'\' { POP_STATE(); return IND_STRING_CLOSE; }
<IND_STRING>\' {
yylval->e = new ExprIndStr("'");
return IND_STR;
}
{PATH_SEG}\$\{ |
{HPATH_START}\$\{ {
PUSH_STATE(PATH_START);
yyless(0);
*yylloc = prev_yylloc;
}
<PATH_START>{PATH_SEG} {
POP_STATE();
PUSH_STATE(INPATH_SLASH);
yylval->path = strdup(yytext);
return PATH;
}
<PATH_START>{HPATH_START} {
POP_STATE();
PUSH_STATE(INPATH_SLASH);
yylval->path = strdup(yytext);
return HPATH;
}
{PATH} {
if (yytext[yyleng-1] == '/')
PUSH_STATE(INPATH_SLASH);
else
PUSH_STATE(INPATH);
yylval->path = strdup(yytext);
return PATH;
}
{HPATH} {
if (yytext[yyleng-1] == '/')
PUSH_STATE(INPATH_SLASH);
else
PUSH_STATE(INPATH);
yylval->path = strdup(yytext);
return HPATH;
}
<INPATH,INPATH_SLASH>\$\{ {
POP_STATE();
PUSH_STATE(INPATH);
PUSH_STATE(DEFAULT);
return DOLLAR_CURLY;
}
<INPATH,INPATH_SLASH>{PATH}|{PATH_SEG}|{PATH_CHAR}+ {
POP_STATE();
if (yytext[yyleng-1] == '/')
PUSH_STATE(INPATH_SLASH);
else
PUSH_STATE(INPATH);
yylval->e = new ExprString(data->symbols.create(string(yytext)));
return STR;
}
<INPATH>{ANY} |
<INPATH><<EOF>> {
/* if we encounter a non-path character we inform the parser that the path has
ended with a PATH_END token and re-parse this character in the default
context (it may be ')', ';', or something of that sort) */
POP_STATE();
yyless(0);
*yylloc = prev_yylloc;
return PATH_END;
}
<INPATH_SLASH>{ANY} |
<INPATH_SLASH><<EOF>> {
throw ParseError("path has a trailing slash");
}
{SPATH} { yylval->path = strdup(yytext); return SPATH; }
{URI} { yylval->uri = strdup(yytext); return URI; }
[ \t\r\n]+ /* eat up whitespace */
\#[^\r\n]* /* single-line comments */
\/\*([^*]|\*+[^*/])*\*+\/ /* long comments */
{ANY} {
/* Don't return a negative number, as this will cause
Bison to stop parsing without an error. */
return (unsigned char) yytext[0];
}
%%