=> Building textproc/cl-ppcre-sbcl build started at Sun Oct 9 14:27:06 PDT 2016 port directory: /usr/ports/textproc/cl-ppcre-sbcl building for: DragonFly pkgbox64.dragonflybsd.org 4.7-DEVELOPMENT DragonFly v4.7.0.78.g7d868-DEVELOPMENT #7: Mon Aug 1 22:25:32 PDT 2016 root@pkgbox64.dragonflybsd.org:/usr/obj/usr/src/sys/X86_64_GENERIC x86_64 maintained by: olgeni@FreeBSD.org ident warning: no id keywords in /build/boomdata/data/.m/Release46-default/ref/../03//usr/ports/textproc/cl-ppcre-sbcl/Makefile Makefile ident: Poudriere version: 3.1-pre Host OSVERSION: 400700 Jail OSVERSION: 400600 ---Begin Environment--- STATUS=1 SAVED_TERM=screen MASTERMNT=/build/boomdata/data/.m/Release46-default/ref PATH=/usr/local/libexec/poudriere:/sbin:/bin:/usr/sbin:/usr/bin:/usr/pkg/bin:/usr/pkg/sbin:/usr/games:/usr/local/sbin:/usr/local/bin:/usr/pkg/xorg/bin:/usr/X11R6/bin:/root/bin:/sbin:/usr/sbin POUDRIERE_BUILD_TYPE=bulk PKGNAME=cl-ppcre-sbcl-2.0.3_12 OLDPWD=/root/boom PWD=/build/boomdata/data/.m/Release46-default/ref/.p/pool MASTERNAME=Release46-default TERM=cons25 USER=root HOME=/root POUDRIERE_VERSION=3.1-pre LOCALBASE=/usr/local PACKAGE_BUILDING=yes ---End Environment--- ---Begin OPTIONS List--- ---End OPTIONS List--- --CONFIGURE_ARGS-- --End CONFIGURE_ARGS-- --CONFIGURE_ENV-- XDG_DATA_HOME=/wrkdirs/textproc/cl-ppcre-sbcl XDG_CONFIG_HOME=/wrkdirs/textproc/cl-ppcre-sbcl HOME=/wrkdirs/textproc/cl-ppcre-sbcl TMPDIR="/tmp" SHELL=/bin/sh CONFIG_SHELL=/bin/sh CCVER=gcc50 --End CONFIGURE_ENV-- --MAKE_ENV-- XDG_DATA_HOME=/wrkdirs/textproc/cl-ppcre-sbcl XDG_CONFIG_HOME=/wrkdirs/textproc/cl-ppcre-sbcl HOME=/wrkdirs/textproc/cl-ppcre-sbcl TMPDIR="/tmp" NO_PIE=yes MK_DEBUG_FILES=no MK_KERNEL_SYMBOLS=no SHELL=/bin/sh NO_LINT=YES CCVER=gcc50 PREFIX=/usr/local LOCALBASE=/usr/local LIBDIR="/usr/lib" NOPROFILE=1 CC="cc" CFLAGS="-pipe -O2 -fno-strict-aliasing" CPP="cpp" CPPFLAGS="" LDFLAGS="" LIBS="" CXX="c++" CXXFLAGS=" -pipe -O2 -fno-strict-aliasing" MANPREFIX="/usr/local" BSD_INSTALL_PROGRAM="install -s -m 555" BSD_INSTALL_LIB="install -s -m 444" BSD_INSTALL_SCRIPT="install -m 555" BSD_INSTALL_DATA="install -m 0644" BSD_INSTALL_MAN="install -m 444" --End MAKE_ENV-- --PLIST_SUB-- OSREL=4.6 PREFIX=%D LOCALBASE=/usr/local RESETPREFIX=/usr/local PORTDOCS="" PORTEXAMPLES="" LIB32DIR=lib PROFILE="@comment " DOCSDIR="share/doc/cl-ppcre-sbcl" EXAMPLESDIR="share/examples/cl-ppcre-sbcl" DATADIR="share/cl-ppcre" WWWDIR="www/cl-ppcre" ETCDIR="etc/cl-ppcre" --End PLIST_SUB-- --SUB_LIST-- PREFIX=/usr/local LOCALBASE=/usr/local DATADIR=/usr/local/share/cl-ppcre DOCSDIR=/usr/local/share/doc/cl-ppcre-sbcl EXAMPLESDIR=/usr/local/share/examples/cl-ppcre-sbcl WWWDIR=/usr/local/www/cl-ppcre ETCDIR=/usr/local/etc/cl-ppcre --End SUB_LIST-- ---Begin make.conf--- NO_BACKUP=yes USE_PACKAGE_DEPENDS=yes PKG_CREATE_VERBOSE=yes BATCH=yes WRKDIRPREFIX=/wrkdirs PORT_DBDIR=/options PORTSDIR=/usr/ports PACKAGES=/packages DISTDIR=/distfiles MAKE_JOBS_NUMBER=5 ---End make.conf--- =================================================== =========================================================================== =================================================== ===> cl-ppcre-sbcl-2.0.3_12 depends on file: /usr/local/sbin/pkg - not found ===> Installing existing package /packages/All/pkg-1.8.7_3.txz Installing pkg-1.8.7_3... Extracting pkg-1.8.7_3: .......... done ===> cl-ppcre-sbcl-2.0.3_12 depends on file: /usr/local/sbin/pkg - found ===> Returning to build of cl-ppcre-sbcl-2.0.3_12 =========================================================================== =================================================== =========================================================================== =================================================== ===> Fetching all distfiles required by cl-ppcre-sbcl-2.0.3_12 for building =========================================================================== =================================================== ===> Fetching all distfiles required by cl-ppcre-sbcl-2.0.3_12 for building =========================================================================== =================================================== =========================================================================== =================================================== ===> Fetching all distfiles required by cl-ppcre-sbcl-2.0.3_12 for building ===> Extracting for cl-ppcre-sbcl-2.0.3_12 =========================================================================== =================================================== =========================================================================== =================================================== ===> Patching for cl-ppcre-sbcl-2.0.3_12 =========================================================================== =================================================== ===> cl-ppcre-sbcl-2.0.3_12 depends on file: /usr/local/lib/common-lisp/cl-ppcre/cl-ppcre.asd - not found ===> Installing existing package /packages/All/cl-ppcre-2.0.3_1.txz Installing cl-ppcre-2.0.3_1... `-- Installing cl-asdf-2.017,2... `-- Extracting cl-asdf-2.017,2: ....... done Extracting cl-ppcre-2.0.3_1: .......... done Message from cl-asdf-2.017,2: ========================================================================== To use asdf and depending ports, you will have to configure your Lisp systems so they know where to find asdf itself and the system definition files. A default configuration is installed in /usr/local/etc/asdf-init.lisp Review this file for further information, or simply load it from your Lisp initialization file. ========================================================================== ===> cl-ppcre-sbcl-2.0.3_12 depends on file: /usr/local/lib/common-lisp/cl-ppcre/cl-ppcre.asd - found ===> Returning to build of cl-ppcre-sbcl-2.0.3_12 ===> cl-ppcre-sbcl-2.0.3_12 depends on executable: sbcl - not found ===> Installing existing package /packages/All/sbcl-1.3.1,1.txz Installing sbcl-1.3.1,1... `-- Installing gmp-5.1.3_3... | `-- Installing indexinfo-0.2.5... | `-- Extracting indexinfo-0.2.5: .... done `-- Extracting gmp-5.1.3_3: .......... done Extracting sbcl-1.3.1,1: .......... done Message from sbcl-1.3.1,1: ===> NOTICE: The sbcl port currently does not have a maintainer. As a result, it is more likely to have unresolved issues, not be up-to-date, or even be removed in the future. To volunteer to maintain this port, please create an issue at: https://bugs.freebsd.org/bugzilla More information about port maintainership is available at: https://www.freebsd.org/doc/en/articles/contributing/ports-contributing.html#maintain-port ===> cl-ppcre-sbcl-2.0.3_12 depends on executable: sbcl - found ===> Returning to build of cl-ppcre-sbcl-2.0.3_12 =========================================================================== =================================================== =========================================================================== =================================================== ===> Configuring for cl-ppcre-sbcl-2.0.3_12 =========================================================================== =================================================== ===> Building for cl-ppcre-sbcl-2.0.3_12 ;; loading #P"/usr/local/lib/sbcl/asdf/asdf.lisp" WARNING: You are using ASDF version 3.1.5 (probably from (require "asdf") or loaded by quicklisp) and have an older version of ASDF (and older than 2.27 at that) registered at #P"/usr/local/lib/common-lisp/asdf/asdf.asd". Having an ASDF installed and registered is the normal way of configuring ASDF to upgrade itself, and having an old version registered is a configuration error. ASDF will ignore this configured system rather than downgrade itself. In the future, you may want to either: (a) upgrade this configured ASDF to a newer version, (b) install a newer ASDF and register it in front of the former in your configuration, or (c) uninstall or unregister this and any other old version of ASDF from your configuration. Note that the older ASDF might be registered implicitly through configuration inherited from your system installation, in which case you might have to specify :ignore-inherited-configuration in your in your ~/.config/common-lisp/source-registry.conf or other source-registry configuration file, environment variable or lisp parameter. Indeed, a likely offender is an obsolete version of the cl-asdf debian or ubuntu package, that you might want to upgrade (if a recent enough version is available) or else remove altogether (since most implementations ship with a recent asdf); if you lack the system administration rights to upgrade or remove this package, then you might indeed want to either install and register a more recent version, or use :ignore-inherited-configuration to avoid registering the old one. Please consult ASDF documentation and/or experts. ; compiling file "/usr/local/lib/common-lisp/cl-ppcre/packages.lisp" (written 25 JUL 2016 01:40:59 AM): ; compiling (IN-PACKAGE :CL-USER) ; compiling (DEFPACKAGE :CL-PPCRE ...) ; /wrkdirs/textproc/cl-ppcre-sbcl/cl-ppcre-2.0.3/packages-TMP.fasl written ; compilation finished in 0:00:00.001 ; compiling file "/usr/local/lib/common-lisp/cl-ppcre/specials.lisp" (written 25 JUL 2016 01:40:59 AM): ; compiling (IN-PACKAGE :CL-PPCRE) ; compiling (DEFVAR *STANDARD-OPTIMIZE-SETTINGS* ...) ; compiling (DEFVAR *SPECIAL-OPTIMIZE-SETTINGS* ...) ; compiling (DEFVAR *EXTENDED-MODE-P* ...) ; compiling (DECLAIM (BOOLEAN *EXTENDED-MODE-P*)) ; compiling (DEFVAR *REGEX-CHAR-CODE-LIMIT* ...) ; compiling (DECLAIM (FIXNUM *REGEX-CHAR-CODE-LIMIT*)) ; compiling (DEFVAR *STRING* ...) ; compiling (DECLAIM (SIMPLE-STRING *STRING*)) ; compiling (DEFVAR *START-POS* ...) ; compiling (DECLAIM (FIXNUM *START-POS*)) ; compiling (DEFVAR *REAL-START-POS* ...) ; compiling (DECLAIM (TYPE # ...)) ; compiling (DEFVAR *END-POS* ...) ; compiling (DECLAIM (FIXNUM *END-POS*)) ; compiling (DEFVAR *REG-STARTS* ...) ; compiling (DECLAIM (SIMPLE-VECTOR *REG-STARTS*)) ; compiling (DEFVAR *REGS-MAYBE-START* ...) ; compiling (DECLAIM (SIMPLE-VECTOR *REGS-MAYBE-START*)) ; compiling (DEFVAR *REG-ENDS* ...) ; compiling (DECLAIM (SIMPLE-VECTOR *REG-ENDS*)) ; compiling (DEFVAR *END-STRING-POS* ...) ; compiling (DEFVAR *REP-NUM* ...) ; compiling (DECLAIM (FIXNUM *REP-NUM*)) ; compiling (DEFVAR *ZERO-LENGTH-NUM* ...) ; compiling (DECLAIM (FIXNUM *ZERO-LENGTH-NUM*)) ; compiling (DEFVAR *REPEAT-COUNTERS* ...) ; compiling (DECLAIM (TYPE # ...)) ; compiling (DEFVAR *LAST-POS-STORES* ...) ; compiling (DECLAIM (SIMPLE-VECTOR *LAST-POS-STORES*)) ; compiling (DEFVAR *USE-BMH-MATCHERS* ...) ; compiling (DEFVAR *OPTIMIZE-CHAR-CLASSES* ...) ; compiling (DEFVAR *PROPERTY-RESOLVER* ...) ; compiling (DEFVAR *ALLOW-QUOTING* ...) ; compiling (DEFVAR *ALLOW-NAMED-REGISTERS* ...) ; compiling (PUSHNEW :CL-PPCRE ...) ; compiling (DEFVAR *HYPERDOC-BASE-URI* ...) ; compiling (LET (#) ...) ; /wrkdirs/textproc/cl-ppcre-sbcl/cl-ppcre-2.0.3/specials-TMP.fasl written ; compilation finished in 0:00:00.063 ; compiling file "/usr/local/lib/common-lisp/cl-ppcre/util.lisp" (written 25 JUL 2016 01:40:59 AM): ; compiling (IN-PACKAGE :CL-PPCRE) ; compiling (DEFMACRO DEFCONSTANT ...) ; compiling (DEFMACRO WITH-UNIQUE-NAMES ...) ; compiling (DEFMACRO WITH-REBINDING ...) ; compiling (DECLAIM (INLINE DIGIT-CHAR-P)) ; compiling (DEFUN DIGIT-CHAR-P ...) ; compiling (DECLAIM (INLINE WORD-CHAR-P)) ; compiling (DEFUN WORD-CHAR-P ...) ; compiling (DEFCONSTANT +WHITESPACE-CHAR-STRING+ ...) ; compiling (DEFUN WHITESPACEP ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/util.lisp ; in: DEFUN WHITESPACEP ; (FIND CL-PPCRE::CHR CL-PPCRE::+WHITESPACE-CHAR-STRING+ :TEST #'CHAR=) ; --> NTH-VALUE MULTIPLE-VALUE-BIND LET ; ==> ; (SB-KERNEL:%FIND-POSITION SB-C::ITEM SEQUENCE SB-C::FROM-END SB-C::START ; SB-C::END ; (SB-KERNEL:EFFECTIVE-FIND-POSITION-KEY SB-C::KEY) ; (SB-KERNEL:EFFECTIVE-FIND-POSITION-TEST SB-C::TEST ; SB-C::TEST-NOT)) ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a T, not a CHARACTER. ; compiling (DEFMACRO MAYBE-COERCE-TO-SIMPLE-STRING ...) ; compiling (DECLAIM (INLINE NSUBSEQ)) ; compiling (DEFUN NSUBSEQ ...) ; compiling (DEFUN NORMALIZE-VAR-LIST ...) ; compiling (DEFUN STRING-LIST-TO-SIMPLE-STRING ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/util.lisp ; in: DEFUN STRING-LIST-TO-SIMPLE-STRING ; (REPLACE CL-PPCRE::RESULT-STRING STRING :START1 CL-PPCRE::CURR-POS) ; ; note: unable to ; optimize ; due to type uncertainty: ; The second argument is a STRING, not a (SIMPLE-ARRAY CHARACTER (*)). ; ; note: unable to ; optimize ; due to type uncertainty: ; The second argument is a STRING, not a SIMPLE-BASE-STRING. ; compiling (DEFUN COMPLEMENT* ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/util.lisp ; in: DEFUN COMPLEMENT* ; (FUNCALL CL-PPCRE::TEST-FUNCTION CHAR) ; --> SB-C::%FUNCALL THE ; ==> ; (SB-KERNEL:%COERCE-CALLABLE-TO-FUN CL-PPCRE::TEST-FUNCTION) ; ; note: unable to ; optimize away possible call to FDEFINITION at runtime ; because: ; not known to be a function ; /wrkdirs/textproc/cl-ppcre-sbcl/cl-ppcre-2.0.3/util-TMP.fasl written ; compilation finished in 0:00:00.078 ; compiling file "/usr/local/lib/common-lisp/cl-ppcre/errors.lisp" (written 25 JUL 2016 01:40:59 AM): ; compiling (IN-PACKAGE :CL-PPCRE) ; compiling (DEFVAR *SYNTAX-ERROR-STRING* ...) ; compiling (DEFINE-CONDITION PPCRE-ERROR ...) ; compiling (DEFINE-CONDITION PPCRE-SYNTAX-ERROR ...) ; compiling (SETF (DOCUMENTATION # ...) ...) ; compiling (SETF (DOCUMENTATION # ...) ...) ; compiling (DEFINE-CONDITION PPCRE-INVOCATION-ERROR ...) ; compiling (DEFMACRO SIGNAL-SYNTAX-ERROR* ...) ; compiling (DEFMACRO SIGNAL-SYNTAX-ERROR ...) ; compiling (DEFMACRO SIGNAL-INVOCATION-ERROR ...) ; /wrkdirs/textproc/cl-ppcre-sbcl/cl-ppcre-2.0.3/errors-TMP.fasl written ; compilation finished in 0:00:00.040 ; compiling file "/usr/local/lib/common-lisp/cl-ppcre/charset.lisp" (written 25 JUL 2016 01:40:59 AM): ; compiling (IN-PACKAGE :CL-PPCRE) ; compiling (DEFCONSTANT +PROBE-DEPTH+ ...) ; compiling (DEFUN MAKE-CHAR-VECTOR ...) ; compiling (DEFSTRUCT (CHARSET #) ...) ; compiling (DEFMETHOD MAKE-LOAD-FORM ...) ; compiling (DECLAIM (INLINE MIX)) ; compiling (DEFUN MIX ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/charset.lisp ; in: DEFUN MIX ; (+ CL-PPCRE::CODE CL-PPCRE::HASH) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a NUMBER, not a FIXNUM. ; The second argument is a NUMBER, not a FIXNUM. ; The result is a (VALUES INTEGER &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline (signed-byte 64) arithmetic (cost 5) because: ; The first argument is a NUMBER, not a (SIGNED-BYTE 64). ; The second argument is a NUMBER, not a (SIGNED-BYTE 64). ; The result is a (VALUES INTEGER &OPTIONAL), not a (VALUES ; (SIGNED-BYTE 64) &REST ; T). ; etc. ; compiling (DECLAIM (INLINE COMPUTE-INDEX)) ; compiling (DEFUN COMPUTE-INDEX ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/charset.lisp ; in: DEFUN COMPUTE-INDEX ; (LENGTH VECTOR) ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a (SIMPLE-ARRAY * (*)). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a VECTOR. ; (MOD CL-PPCRE::HASH (1- (LENGTH VECTOR))) ; --> LET REM NTH-VALUE MULTIPLE-VALUE-BIND MULTIPLE-VALUE-CALL ; ==> ; (TRUNCATE NUMBER SB-C::DIVISOR) ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a REAL, not a SINGLE-FLOAT. ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a REAL, not a DOUBLE-FLOAT. ; ; note: unable to ; convert division by 2^k to shift ; due to type uncertainty: ; The first argument is a REAL, not a INTEGER. ; --> LET IF AND IF NOT IF ZEROP ; ==> ; (= REM 0) ; ; note: unable to ; open-code FLOAT to RATIONAL comparison ; due to type uncertainty: ; The first argument is a (OR ; (RATIONAL (-4611686018427387899) ; (4611686018427387899)) ; (DOUBLE-FLOAT -4.611686018427388d18 ; 4.611686018427388d18) ; (SINGLE-FLOAT -4.611686e18 ; 4.611686e18)), not a FLOAT. ; ; note: unable to open code because: The operands might not be the same type. ; --> LET IF AND IF AND THE IF PLUSP ; ==> ; (> NUMBER 0) ; ; note: unable to ; open-code FLOAT to RATIONAL comparison ; due to type uncertainty: ; The first argument is a REAL, not a FLOAT. ; --> LET IF AND IF AND THE IF MINUSP ; ==> ; (< NUMBER 0) ; ; note: unable to ; open-code FLOAT to RATIONAL comparison ; due to type uncertainty: ; The first argument is a REAL, not a FLOAT. ; (1+ (MOD CL-PPCRE::HASH (1- (LENGTH VECTOR)))) ; ==> ; (+ (MOD CL-PPCRE::HASH (1- (LENGTH VECTOR))) 1) ; ; note: unable to ; associate +/+ of constants ; due to type uncertainty: ; The first argument is a (OR (SINGLE-FLOAT -4.611686e18 9.223372e18) ; (DOUBLE-FLOAT -4.611686018427388d18 ; 9.223372036854776d18) ; (RATIONAL (-4611686018427387900) ; (9223372036854775798))), not a RATIONAL. ; ; note: unable to ; associate +/- of constants ; due to type uncertainty: ; The first argument is a (OR (SINGLE-FLOAT -4.611686e18 9.223372e18) ; (DOUBLE-FLOAT -4.611686018427388d18 ; 9.223372036854776d18) ; (RATIONAL (-4611686018427387900) ; (9223372036854775798))), not a RATIONAL. ; (MOD CL-PPCRE::HASH (1- (LENGTH VECTOR))) ; --> LET IF AND IF AND THE IF MINUSP ; ==> ; (< NUMBER 0) ; ; note: forced to do GENERIC-< (cost 10) ; unable to do inline fixnum comparison (cost 3) because: ; The first argument is a REAL, not a FIXNUM. ; unable to do inline fixnum comparison (cost 4) because: ; The first argument is a REAL, not a FIXNUM. ; etc. ; --> LET IF AND IF AND THE IF PLUSP ; ==> ; (> NUMBER 0) ; ; note: forced to do GENERIC-> (cost 10) ; unable to do inline fixnum comparison (cost 3) because: ; The first argument is a REAL, not a FIXNUM. ; unable to do inline fixnum comparison (cost 4) because: ; The first argument is a REAL, not a FIXNUM. ; etc. ; --> LET IF ; ==> ; (+ REM SB-C::DIVISOR) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (OR ; (RATIONAL (-4611686018427387899) ; (4611686018427387899)) ; (DOUBLE-FLOAT -4.611686018427388d18 ; 4.611686018427388d18) ; (SINGLE-FLOAT -4.611686e18 4.611686e18)), not a FIXNUM. ; The result is a (VALUES ; (OR (SINGLE-FLOAT -4.611686e18 9.223372e18) ; (DOUBLE-FLOAT -4.611686018427388d18 ; 9.223372036854776d18) ; (RATIONAL (-4611686018427387900) ; (9223372036854775798))) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline (signed-byte 64) arithmetic (cost 5) because: ; The first argument is a (OR ; (RATIONAL (-4611686018427387899) ; (4611686018427387899)) ; (DOUBLE-FLOAT -4.611686018427388d18 ; 4.611686018427388d18) ; (SINGLE-FLOAT -4.611686e18 4.611686e18)), not a (SIGNED-BYTE ; 64). ; The result is a (VALUES ; (OR (SINGLE-FLOAT -4.611686e18 9.223372e18) ; (DOUBLE-FLOAT -4.611686018427388d18 ; 9.223372036854776d18) ; (RATIONAL (-4611686018427387900) ; (9223372036854775798))) ; &OPTIONAL), not a (VALUES (SIGNED-BYTE 64) &REST T). ; etc. ; (1+ (MOD CL-PPCRE::HASH (1- (LENGTH VECTOR)))) ; ==> ; (+ (MOD CL-PPCRE::HASH (1- (LENGTH VECTOR))) 1) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline fixnum arithmetic (cost 1) because: ; The first argument is a (OR (SINGLE-FLOAT -4.611686e18 9.223372e18) ; (DOUBLE-FLOAT -4.611686018427388d18 ; 9.223372036854776d18) ; (RATIONAL (-4611686018427387900) ; (9223372036854775798))), not a FIXNUM. ; The result is a (VALUES ; (OR ; (RATIONAL (-4611686018427387899) (9223372036854775799)) ; (DOUBLE-FLOAT -4.611686018427388d18 ; 9.223372036854776d18) ; (SINGLE-FLOAT -4.611686e18 9.223372e18)) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (OR (SINGLE-FLOAT -4.611686e18 9.223372e18) ; (DOUBLE-FLOAT -4.611686018427388d18 ; 9.223372036854776d18) ; (RATIONAL (-4611686018427387900) ; (9223372036854775798))), not a FIXNUM. ; The result is a (VALUES ; (OR ; (RATIONAL (-4611686018427387899) (9223372036854775799)) ; (DOUBLE-FLOAT -4.611686018427388d18 ; 9.223372036854776d18) ; (SINGLE-FLOAT -4.611686e18 9.223372e18)) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; etc. ; compiling (DEFUN IN-CHARSET-P ...) ; compiling (DEFUN ADD-TO-CHARSET ...) ; compiling (DEFUN %ADD-TO-CHARSET ...) ; compiling (DEFUN %ADD-TO-CHARSET/EXPAND ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/charset.lisp ; in: DEFUN %ADD-TO-CHARSET/EXPAND ; (* 2 CL-PPCRE::NEW-SIZE) ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a NUMBER, not a SINGLE-FLOAT. ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a NUMBER, not a DOUBLE-FLOAT. ; ; note: unable to ; convert x*2^k to shift ; due to type uncertainty: ; The first argument is a NUMBER, not a INTEGER. ; ; note: unable to ; associate */* of constants ; due to type uncertainty: ; The first argument is a NUMBER, not a RATIONAL. ; ; note: unable to ; associate *// of constants ; due to type uncertainty: ; The first argument is a NUMBER, not a RATIONAL. ; (>= CL-PPCRE::NEW-SIZE 371370) ; --> OR LET > IF ; ==> ; (> SB-C::X SB-C::Y) ; ; note: unable to ; open-code FLOAT to RATIONAL comparison ; due to type uncertainty: ; The first argument is a REAL, not a FLOAT. ; --> OR LET IF OR THE = IF ; ==> ; (= SB-C::X SB-C::Y) ; ; note: unable to ; open-code FLOAT to RATIONAL comparison ; due to type uncertainty: ; The first argument is a REAL, not a FLOAT. ; ; note: unable to open code because: The operands might not be the same type. ; (* 2 CL-PPCRE::NEW-SIZE) ; ; note: forced to do GENERIC-* (cost 30) ; unable to do inline fixnum arithmetic (cost 3) because: ; The first argument is a NUMBER, not a FIXNUM. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline (signed-byte 64) arithmetic (cost 4) because: ; The first argument is a NUMBER, not a (SIGNED-BYTE 64). ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES (SIGNED-BYTE 64) ; &REST T). ; etc. ; (>= CL-PPCRE::NEW-SIZE 371370) ; --> OR LET > IF ; ==> ; (> SB-C::X SB-C::Y) ; ; note: forced to do GENERIC-> (cost 10) ; unable to do inline fixnum comparison (cost 3) because: ; The first argument is a REAL, not a FIXNUM. ; unable to do inline fixnum comparison (cost 4) because: ; The first argument is a REAL, not a FIXNUM. ; etc. ; (LET* ((CL-PPCRE::OLD-VECTOR (CL-PPCRE::CHARSET-VECTOR SET)) ; (CL-PPCRE::NEW-SIZE (* 2 (LENGTH CL-PPCRE::OLD-VECTOR)))) ; (TAGBODY ; :RETRY ; (MULTIPLE-VALUE-BIND (CL-PPCRE::NEW-DEPTH CL-PPCRE::NEW-VECTOR) ; (IF (>= CL-PPCRE::NEW-SIZE 371370) ; (VALUES 0 #) ; (VALUES CL-PPCRE::+PROBE-DEPTH+ #)) ; (SETF # CL-PPCRE::NEW-DEPTH ; # CL-PPCRE::NEW-VECTOR) ; (FLET (#) ; (CL-PPCRE::TRY-ADD CHAR) ; (DOTIMES # #)))) ; (INCF (CL-PPCRE::CHARSET-COUNT SET)) ; T) ; ; note: doing signed word to integer coercion (cost 20) to NEW-SIZE ; compiling (DEFUN MAP-CHARSET ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/charset.lisp ; in: DEFUN MAP-CHARSET ; (ZEROP (DECF CL-PPCRE::N)) ; ==> ; (= (DECF CL-PPCRE::N) 0) ; ; note: unable to ; open-code FLOAT to RATIONAL comparison ; due to type uncertainty: ; The first argument is a NUMBER, not a FLOAT. ; ; note: unable to open code because: The operands might not be the same type. ; (DECF CL-PPCRE::N) ; --> SETQ THE SB-IMPL::XSUBTRACT BLOCK ; ==> ; (- SB-IMPL::B SB-IMPL::A) ; ; note: forced to do GENERIC-- (cost 10) ; unable to do inline fixnum arithmetic (cost 1) because: ; The first argument is a NUMBER, not a FIXNUM. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a NUMBER, not a FIXNUM. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES FIXNUM &REST T). ; etc. ; ==> ; (SETQ CL-PPCRE::N (SB-IMPL::XSUBTRACT 1 CL-PPCRE::N)) ; ; note: doing signed word to integer coercion (cost 20) to N ; compiling (DEFUN CREATE-CHARSET-FROM-TEST-FUNCTION ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/charset.lisp ; in: DEFUN CREATE-CHARSET-FROM-TEST-FUNCTION ; (FUNCALL CL-PPCRE::TEST-FUNCTION CHAR) ; --> SB-C::%FUNCALL THE ; ==> ; (SB-KERNEL:%COERCE-CALLABLE-TO-FUN CL-PPCRE::TEST-FUNCTION) ; ; note: unable to ; optimize away possible call to FDEFINITION at runtime ; because: ; not known to be a function ; (LOOP CL-PPCRE::WITH CL-PPCRE::CHARSET = (CL-PPCRE::MAKE-CHARSET) ; CL-PPCRE::FOR CL-PPCRE::CODE CL-PPCRE::FROM CL-PPCRE::START CL-PPCRE::BELOW ; CL-PPCRE::END ; CL-PPCRE::FOR ...) ; --> BLOCK LET LET LET SB-LOOP::LOOP-BODY TAGBODY WHEN IF >= OR LET > IF ; ==> ; (> SB-C::X SB-C::Y) ; ; note: unable to ; open-code FLOAT to RATIONAL comparison ; due to type uncertainty: ; The first argument is a REAL, not a FLOAT. ; The second argument is a REAL, not a RATIONAL. ; --> BLOCK LET LET LET SB-LOOP::LOOP-BODY TAGBODY WHEN IF >= OR LET IF OR THE ; --> = IF ; ==> ; (= SB-C::X SB-C::Y) ; ; note: unable to ; open-code FLOAT to RATIONAL comparison ; due to type uncertainty: ; The first argument is a REAL, not a FLOAT. ; The second argument is a REAL, not a RATIONAL. ; ; note: unable to open code because: The operands might not be the same type. ; --> BLOCK LET LET LET SB-LOOP::LOOP-BODY TAGBODY WHEN IF >= OR LET > IF ; ==> ; (> SB-C::X SB-C::Y) ; ; note: forced to do GENERIC-> (cost 10) ; unable to do inline float comparison (cost 3) because: ; The first argument is a REAL, not a SINGLE-FLOAT. ; The second argument is a REAL, not a SINGLE-FLOAT. ; unable to do inline float comparison (cost 3) because: ; The first argument is a REAL, not a DOUBLE-FLOAT. ; The second argument is a REAL, not a DOUBLE-FLOAT. ; etc. ; --> BLOCK LET LET LET SB-LOOP::LOOP-BODY TAGBODY WHEN IF >= OR LET IF OR THE ; --> = IF ; ==> ; (= SB-C::X SB-C::Y) ; ; note: forced to do GENERIC-= (cost 10) ; unable to do inline float comparison (cost 3) because: ; The first argument is a REAL, not a DOUBLE-FLOAT. ; The second argument is a REAL, not a DOUBLE-FLOAT. ; unable to do inline float comparison (cost 3) because: ; The first argument is a REAL, not a SINGLE-FLOAT. ; The second argument is a REAL, not a SINGLE-FLOAT. ; /wrkdirs/textproc/cl-ppcre-sbcl/cl-ppcre-2.0.3/charset-TMP.fasl written ; compilation finished in 0:00:00.065 ; compiling file "/usr/local/lib/common-lisp/cl-ppcre/charmap.lisp" (written 25 JUL 2016 01:40:59 AM): ; compiling (IN-PACKAGE :CL-PPCRE) ; compiling (DEFSTRUCT (CHARMAP #) ...) ; compiling (DEFMETHOD MAKE-LOAD-FORM ...) ; compiling (DECLAIM (INLINE IN-CHARMAP-P)) ; compiling (DEFUN IN-CHARMAP-P ...) ; compiling (DEFUN CHARMAP-CONTENTS ...) ; compiling (DEFUN MAKE-CHARMAP ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/charmap.lisp ; in: DEFUN MAKE-CHARMAP ; (FUNCALL CL-PPCRE::TEST-FUNCTION CHAR) ; --> SB-C::%FUNCALL THE ; ==> ; (SB-KERNEL:%COERCE-CALLABLE-TO-FUN CL-PPCRE::TEST-FUNCTION) ; ; note: unable to ; optimize away possible call to FDEFINITION at runtime ; because: ; not known to be a function ; compiling (DEFUN CREATE-CHARMAP-FROM-TEST-FUNCTION ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/charmap.lisp ; in: DEFUN CREATE-CHARMAP-FROM-TEST-FUNCTION ; (LOOP CL-PPCRE::FOR CL-PPCRE::CODE CL-PPCRE::FROM (1- ; CL-PPCRE::END) CL-PPCRE::DOWNTO CL-PPCRE::START ; CL-PPCRE::FOR CHAR = (CODE-CHAR CL-PPCRE::CODE) ; CL-PPCRE::UNTIL ...) ; --> BLOCK LET LET SB-LOOP::LOOP-BODY TAGBODY WHEN IF ; ==> ; (< CL-PPCRE::CODE #:LOOP-LIMIT-262) ; ; note: unable to ; open-code FLOAT to RATIONAL comparison ; due to type uncertainty: ; The first argument is a REAL, not a FLOAT. ; The second argument is a REAL, not a RATIONAL. ; (FUNCALL CL-PPCRE::TEST-FUNCTION CHAR) ; --> SB-C::%FUNCALL THE ; ==> ; (SB-KERNEL:%COERCE-CALLABLE-TO-FUN CL-PPCRE::TEST-FUNCTION) ; ; note: unable to ; optimize away possible call to FDEFINITION at runtime ; because: ; not known to be a function ; ; note: unable to ; optimize away possible call to FDEFINITION at runtime ; because: ; not known to be a function ; ; note: unable to ; optimize away possible call to FDEFINITION at runtime ; because: ; not known to be a function ; ; note: unable to ; optimize away possible call to FDEFINITION at runtime ; because: ; not known to be a function ; (LOOP CL-PPCRE::FOR CL-PPCRE::CODE CL-PPCRE::FROM CL-PPCRE::START CL-PPCRE::BELOW ; CL-PPCRE::END ; CL-PPCRE::FOR CHAR = (CODE-CHAR CL-PPCRE::CODE) ; CL-PPCRE::UNTIL ...) ; --> BLOCK LET LET SB-LOOP::LOOP-BODY TAGBODY WHEN IF >= OR LET > IF ; ==> ; (> SB-C::X SB-C::Y) ; ; note: unable to ; open-code FLOAT to RATIONAL comparison ; due to type uncertainty: ; The first argument is a REAL, not a FLOAT. ; The second argument is a REAL, not a RATIONAL. ; --> BLOCK LET LET SB-LOOP::LOOP-BODY TAGBODY WHEN IF >= OR LET IF OR THE = IF ; ==> ; (= SB-C::X SB-C::Y) ; ; note: unable to ; open-code FLOAT to RATIONAL comparison ; due to type uncertainty: ; The first argument is a REAL, not a FLOAT. ; The second argument is a REAL, not a RATIONAL. ; ; note: unable to open code because: The operands might not be the same type. ; --> BLOCK LET LET SB-LOOP::LOOP-BODY TAGBODY WHEN IF >= OR LET > IF ; ==> ; (> SB-C::X SB-C::Y) ; ; note: forced to do GENERIC-> (cost 10) ; unable to do inline float comparison (cost 3) because: ; The first argument is a REAL, not a SINGLE-FLOAT. ; The second argument is a REAL, not a SINGLE-FLOAT. ; unable to do inline float comparison (cost 3) because: ; The first argument is a REAL, not a DOUBLE-FLOAT. ; The second argument is a REAL, not a DOUBLE-FLOAT. ; etc. ; --> BLOCK LET LET SB-LOOP::LOOP-BODY TAGBODY WHEN IF >= OR LET IF OR THE = IF ; ==> ; (= SB-C::X SB-C::Y) ; ; note: forced to do GENERIC-= (cost 10) ; unable to do inline float comparison (cost 3) because: ; The first argument is a REAL, not a DOUBLE-FLOAT. ; The second argument is a REAL, not a DOUBLE-FLOAT. ; unable to do inline float comparison (cost 3) because: ; The first argument is a REAL, not a SINGLE-FLOAT. ; The second argument is a REAL, not a SINGLE-FLOAT. ; (1- CL-PPCRE::END) ; ==> ; (- CL-PPCRE::END 1) ; ; note: forced to do GENERIC-- (cost 10) ; unable to do inline fixnum arithmetic (cost 1) because: ; The first argument is a REAL, not a FIXNUM. ; The result is a (VALUES REAL &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a REAL, not a FIXNUM. ; The result is a (VALUES REAL &OPTIONAL), not a (VALUES FIXNUM &REST T). ; etc. ; (LOOP CL-PPCRE::FOR CL-PPCRE::CODE CL-PPCRE::FROM (1- ; CL-PPCRE::END) CL-PPCRE::DOWNTO CL-PPCRE::START ; CL-PPCRE::FOR CHAR = (CODE-CHAR CL-PPCRE::CODE) ; CL-PPCRE::UNTIL ...) ; --> BLOCK LET LET SB-LOOP::LOOP-BODY TAGBODY WHEN IF ; ==> ; (< CL-PPCRE::CODE #:LOOP-LIMIT-262) ; ; note: forced to do GENERIC-< (cost 10) ; unable to do inline float comparison (cost 3) because: ; The first argument is a REAL, not a SINGLE-FLOAT. ; The second argument is a REAL, not a SINGLE-FLOAT. ; unable to do inline float comparison (cost 3) because: ; The first argument is a REAL, not a DOUBLE-FLOAT. ; The second argument is a REAL, not a DOUBLE-FLOAT. ; etc. ; /wrkdirs/textproc/cl-ppcre-sbcl/cl-ppcre-2.0.3/charmap-TMP.fasl written ; compilation finished in 0:00:00.045 ; compiling file "/usr/local/lib/common-lisp/cl-ppcre/chartest.lisp" (written 25 JUL 2016 01:40:59 AM): ; compiling (IN-PACKAGE :CL-PPCRE) ; compiling (DEFUN CREATE-HASH-TABLE-FROM-TEST-FUNCTION ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/chartest.lisp ; in: DEFUN CREATE-HASH-TABLE-FROM-TEST-FUNCTION ; (FUNCALL CL-PPCRE::TEST-FUNCTION CHAR) ; --> SB-C::%FUNCALL THE ; ==> ; (SB-KERNEL:%COERCE-CALLABLE-TO-FUN CL-PPCRE::TEST-FUNCTION) ; ; note: unable to ; optimize away possible call to FDEFINITION at runtime ; because: ; not known to be a function ; (LOOP CL-PPCRE::WITH HASH-TABLE = (MAKE-HASH-TABLE) ; CL-PPCRE::FOR CL-PPCRE::CODE CL-PPCRE::FROM CL-PPCRE::START CL-PPCRE::BELOW ; CL-PPCRE::END ; CL-PPCRE::FOR ...) ; --> BLOCK LET LET LET SB-LOOP::LOOP-BODY TAGBODY WHEN IF >= OR LET > IF ; ==> ; (> SB-C::X SB-C::Y) ; ; note: unable to ; open-code FLOAT to RATIONAL comparison ; due to type uncertainty: ; The first argument is a REAL, not a FLOAT. ; The second argument is a REAL, not a RATIONAL. ; --> BLOCK LET LET LET SB-LOOP::LOOP-BODY TAGBODY WHEN IF >= OR LET IF OR THE ; --> = IF ; ==> ; (= SB-C::X SB-C::Y) ; ; note: unable to ; open-code FLOAT to RATIONAL comparison ; due to type uncertainty: ; The first argument is a REAL, not a FLOAT. ; The second argument is a REAL, not a RATIONAL. ; ; note: unable to open code because: The operands might not be the same type. ; --> BLOCK LET LET LET SB-LOOP::LOOP-BODY TAGBODY WHEN IF >= OR LET > IF ; ==> ; (> SB-C::X SB-C::Y) ; ; note: forced to do GENERIC-> (cost 10) ; unable to do inline float comparison (cost 3) because: ; The first argument is a REAL, not a SINGLE-FLOAT. ; The second argument is a REAL, not a SINGLE-FLOAT. ; unable to do inline float comparison (cost 3) because: ; The first argument is a REAL, not a DOUBLE-FLOAT. ; The second argument is a REAL, not a DOUBLE-FLOAT. ; etc. ; --> BLOCK LET LET LET SB-LOOP::LOOP-BODY TAGBODY WHEN IF >= OR LET IF OR THE ; --> = IF ; ==> ; (= SB-C::X SB-C::Y) ; ; note: forced to do GENERIC-= (cost 10) ; unable to do inline float comparison (cost 3) because: ; The first argument is a REAL, not a DOUBLE-FLOAT. ; The second argument is a REAL, not a DOUBLE-FLOAT. ; unable to do inline float comparison (cost 3) because: ; The first argument is a REAL, not a SINGLE-FLOAT. ; The second argument is a REAL, not a SINGLE-FLOAT. ; compiling (DEFUN CREATE-OPTIMIZED-TEST-FUNCTION ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/chartest.lisp ; in: DEFUN CREATE-OPTIMIZED-TEST-FUNCTION ; (CEILING (- CL-PPCRE::END CL-PPCRE::START) 2) ; --> MULTIPLE-VALUE-BIND MULTIPLE-VALUE-CALL ; ==> ; (TRUNCATE NUMBER SB-C::DIVISOR) ; ; note: unable to ; convert integer division to multiplication ; due to type uncertainty: ; The first argument is a REAL, not a (UNSIGNED-BYTE 64). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a REAL, not a SINGLE-FLOAT. ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a REAL, not a DOUBLE-FLOAT. ; ; note: unable to ; convert division by 2^k to shift ; due to type uncertainty: ; The first argument is a REAL, not a INTEGER. ; --> MULTIPLE-VALUE-BIND MULTIPLE-VALUE-CALL FUNCTION IF AND IF NOT IF ZEROP ; ==> ; (= REM 0) ; ; note: unable to ; open-code FLOAT to RATIONAL comparison ; due to type uncertainty: ; The first argument is a (OR (RATIONAL (-2) (2)) (DOUBLE-FLOAT -2.0d0 2.0d0) ; (SINGLE-FLOAT -2.0 2.0)), not a FLOAT. ; ; note: unable to open code because: The operands might not be the same type. ; --> MULTIPLE-VALUE-BIND MULTIPLE-VALUE-CALL FUNCTION IF AND IF AND THE IF ; --> PLUSP ; ==> ; (> NUMBER 0) ; ; note: unable to ; open-code FLOAT to RATIONAL comparison ; due to type uncertainty: ; The first argument is a REAL, not a FLOAT. ; --> MULTIPLE-VALUE-BIND MULTIPLE-VALUE-CALL ; ==> ; (TRUNCATE NUMBER SB-C::DIVISOR) ; ; note: unable to ; convert integer division to multiplication ; due to type uncertainty: ; The first argument is a REAL, not a (UNSIGNED-BYTE 64). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a REAL, not a SINGLE-FLOAT. ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a REAL, not a DOUBLE-FLOAT. ; ; note: unable to ; convert division by 2^k to shift ; due to type uncertainty: ; The first argument is a REAL, not a INTEGER. ; --> MULTIPLE-VALUE-BIND MULTIPLE-VALUE-CALL FUNCTION IF AND IF NOT IF ZEROP ; ==> ; (= REM 0) ; ; note: unable to ; open-code FLOAT to RATIONAL comparison ; due to type uncertainty: ; The first argument is a (OR (RATIONAL (-2) (2)) (DOUBLE-FLOAT -2.0d0 2.0d0) ; (SINGLE-FLOAT -2.0 2.0)), not a FLOAT. ; ; note: unable to open code because: The operands might not be the same type. ; --> MULTIPLE-VALUE-BIND MULTIPLE-VALUE-CALL FUNCTION IF AND IF AND THE IF ; --> PLUSP ; ==> ; (> NUMBER 0) ; ; note: unable to ; open-code FLOAT to RATIONAL comparison ; due to type uncertainty: ; The first argument is a REAL, not a FLOAT. ; (- CL-PPCRE::END CL-PPCRE::START) ; ; note: forced to do GENERIC-- (cost 10) ; unable to do inline float arithmetic (cost 2) because: ; The first argument is a NUMBER, not a DOUBLE-FLOAT. ; The second argument is a NUMBER, not a DOUBLE-FLOAT. ; The result is a (VALUES REAL &OPTIONAL), not a (VALUES DOUBLE-FLOAT &REST ; T). ; unable to do inline float arithmetic (cost 2) because: ; The first argument is a NUMBER, not a SINGLE-FLOAT. ; The second argument is a NUMBER, not a SINGLE-FLOAT. ; The result is a (VALUES REAL &OPTIONAL), not a (VALUES SINGLE-FLOAT &REST ; T). ; etc. ; (CEILING (- CL-PPCRE::END CL-PPCRE::START) 2) ; --> MULTIPLE-VALUE-BIND MULTIPLE-VALUE-CALL FUNCTION IF AND IF AND THE IF ; --> PLUSP ; ==> ; (> NUMBER 0) ; ; note: forced to do GENERIC-> (cost 10) ; unable to do inline fixnum comparison (cost 3) because: ; The first argument is a REAL, not a FIXNUM. ; unable to do inline fixnum comparison (cost 4) because: ; The first argument is a REAL, not a FIXNUM. ; etc. ; --> MULTIPLE-VALUE-BIND MULTIPLE-VALUE-CALL FUNCTION IF VALUES ; ==> ; (+ SB-C::TRU 1) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline fixnum arithmetic (cost 1) because: ; The first argument is a INTEGER, not a FIXNUM. ; The result is a (VALUES INTEGER &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a INTEGER, not a FIXNUM. ; The result is a (VALUES INTEGER &OPTIONAL), not a (VALUES FIXNUM &REST T). ; etc. ; (<= (HASH-TABLE-COUNT HASH-TABLE) ; (CEILING (- CL-PPCRE::END CL-PPCRE::START) 2)) ; --> IF ; ==> ; (> SB-C::X SB-C::Y) ; ; note: forced to do GENERIC-> (cost 10) ; unable to do inline fixnum comparison (cost 4) because: ; The second argument is a INTEGER, not a FIXNUM. ; (- CL-PPCRE::END CL-PPCRE::START) ; ; note: forced to do GENERIC-- (cost 10) ; unable to do inline float arithmetic (cost 2) because: ; The first argument is a NUMBER, not a DOUBLE-FLOAT. ; The second argument is a NUMBER, not a DOUBLE-FLOAT. ; The result is a (VALUES REAL &OPTIONAL), not a (VALUES DOUBLE-FLOAT &REST ; T). ; unable to do inline float arithmetic (cost 2) because: ; The first argument is a NUMBER, not a SINGLE-FLOAT. ; The second argument is a NUMBER, not a SINGLE-FLOAT. ; The result is a (VALUES REAL &OPTIONAL), not a (VALUES SINGLE-FLOAT &REST ; T). ; etc. ; (CEILING (- CL-PPCRE::END CL-PPCRE::START) 2) ; --> MULTIPLE-VALUE-BIND MULTIPLE-VALUE-CALL FUNCTION IF AND IF AND THE IF ; --> PLUSP ; ==> ; (> NUMBER 0) ; ; note: forced to do GENERIC-> (cost 10) ; unable to do inline fixnum comparison (cost 3) because: ; The first argument is a REAL, not a FIXNUM. ; unable to do inline fixnum comparison (cost 4) because: ; The first argument is a REAL, not a FIXNUM. ; etc. ; --> MULTIPLE-VALUE-BIND MULTIPLE-VALUE-CALL FUNCTION IF VALUES ; ==> ; (+ SB-C::TRU 1) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline fixnum arithmetic (cost 1) because: ; The first argument is a INTEGER, not a FIXNUM. ; The result is a (VALUES INTEGER &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a INTEGER, not a FIXNUM. ; The result is a (VALUES INTEGER &OPTIONAL), not a (VALUES FIXNUM &REST T). ; etc. ; (<= (CL-PPCRE::CHARSET-COUNT CL-PPCRE::CHARSET) ; (CEILING (- CL-PPCRE::END CL-PPCRE::START) 2)) ; --> IF ; ==> ; (> SB-C::X SB-C::Y) ; ; note: forced to do GENERIC-> (cost 10) ; unable to do inline fixnum comparison (cost 4) because: ; The second argument is a INTEGER, not a FIXNUM. ; /wrkdirs/textproc/cl-ppcre-sbcl/cl-ppcre-2.0.3/chartest-TMP.fasl written ; compilation finished in 0:00:00.013 ; compiling file "/usr/local/lib/common-lisp/cl-ppcre/lexer.lisp" (written 25 JUL 2016 01:40:59 AM): ; compiling (IN-PACKAGE :CL-PPCRE) ; compiling (DECLAIM (INLINE MAP-CHAR-TO-SPECIAL-CLASS)) ; compiling (DEFUN MAP-CHAR-TO-SPECIAL-CHAR-CLASS ...) ; compiling (DEFSTRUCT (LEXER #) ...) ; compiling (DEFUN MAKE-LEXER ...) ; compiling (DECLAIM (INLINE END-OF-STRING-P)) ; compiling (DEFUN END-OF-STRING-P ...) ; compiling (DECLAIM (INLINE LOOKING-AT-P)) ; compiling (DEFUN LOOKING-AT-P ...) ; compiling (DECLAIM (INLINE NEXT-CHAR-NON-EXTENDED)) ; compiling (DEFUN NEXT-CHAR-NON-EXTENDED ...) ; compiling (DEFUN NEXT-CHAR ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/lexer.lisp ; in: DEFUN NEXT-CHAR ; (CL-PPCRE::SIGNAL-SYNTAX-ERROR* CL-PPCRE::ERROR-POS ; "Comment group not closed.") ; ==> ; (ERROR 'CL-PPCRE:PPCRE-SYNTAX-ERROR :POS CL-PPCRE::ERROR-POS :FORMAT-CONTROL ; "Comment group not closed." :FORMAT-ARGUMENTS (LIST)) ; ; note: doing signed word to integer coercion (cost 20) ; compiling (DECLAIM (INLINE FAIL)) ; compiling (DEFUN FAIL ...) ; compiling (DEFUN GET-NUMBER ...) ; compiling (DECLAIM (INLINE TRY-NUMBER)) ; compiling (DEFUN TRY-NUMBER ...) ; compiling (DECLAIM (INLINE MAKE-CHAR-FROM-CODE)) ; compiling (DEFUN MAKE-CHAR-FROM-CODE ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/lexer.lisp ; in: DEFUN MAKE-CHAR-FROM-CODE ; (CL-PPCRE::SIGNAL-SYNTAX-ERROR* CL-PPCRE::ERROR-POS ; "No character for hex-code ~X." NUMBER) ; --> ERROR ; ==> ; CL-PPCRE::ERROR-POS ; ; note: deleting unreachable code ; compiling (DEFUN UNESCAPE-CHAR ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/lexer.lisp ; in: DEFUN UNESCAPE-CHAR ; (CL-PPCRE::MAKE-CHAR-FROM-CODE NUMBER CL-PPCRE::ERROR-POS) ; --> BLOCK LET OR LET IF OR THE CL-PPCRE::SIGNAL-SYNTAX-ERROR* ERROR LIST CONS ; ==> ; NUMBER ; ; note: deleting unreachable code ; ; note: deleting unreachable code ; (CHAR-UPCASE CL-PPCRE::NEXT-CHAR) ; ; note: unable to ; open code ; due to type uncertainty: ; The first argument is a CHARACTER, not a BASE-CHAR. ; compiling (DEFUN READ-CHAR-PROPERTY ...) ; compiling (DEFUN COLLECT-CHAR-CLASS ...) ; compiling (DEFUN MAYBE-PARSE-FLAGS ...) ; compiling (DEFUN GET-QUANTIFIER ...) ; compiling (DEFUN PARSE-REGISTER-NAME-AUX ...) ; compiling (DEFUN GET-TOKEN ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/lexer.lisp ; in: DEFUN GET-TOKEN ; (CL-PPCRE::SIGNAL-SYNTAX-ERROR "End of string following '(?<'.") ; --> CL-PPCRE::SIGNAL-SYNTAX-ERROR* ERROR ; ==> ; "End of string following '(?<'." ; ; note: deleting unreachable code ; (CL-PPCRE::SIGNAL-SYNTAX-ERROR* (1- (CL-PPCRE::LEXER-POS CL-PPCRE::LEXER)) ; "Character '~A' may not follow '(?<'." ; CL-PPCRE::NEXT-CHAR) ; ==> ; (ERROR 'CL-PPCRE:PPCRE-SYNTAX-ERROR :POS ; (1- (CL-PPCRE::LEXER-POS CL-PPCRE::LEXER)) :FORMAT-CONTROL ; "Character '~A' may not follow '(?<'." :FORMAT-ARGUMENTS ; (LIST CL-PPCRE::NEXT-CHAR)) ; ; note: doing signed word to integer coercion (cost 20) ; ; note: doing signed word to integer coercion (cost 20) ; (CL-PPCRE::SIGNAL-SYNTAX-ERROR* (1- (CL-PPCRE::LEXER-POS CL-PPCRE::LEXER)) ; "Character '~A' may not follow '(?'." ; CL-PPCRE::NEXT-CHAR) ; ==> ; (ERROR 'CL-PPCRE:PPCRE-SYNTAX-ERROR :POS ; (1- (CL-PPCRE::LEXER-POS CL-PPCRE::LEXER)) :FORMAT-CONTROL ; "Character '~A' may not follow '(?'." :FORMAT-ARGUMENTS ; (LIST CL-PPCRE::NEXT-CHAR)) ; ; note: doing signed word to integer coercion (cost 20) ; (CL-PPCRE::SIGNAL-SYNTAX-ERROR* (1- (CL-PPCRE::LEXER-POS CL-PPCRE::LEXER)) ; "Quantifier '~A' not allowed." ; CL-PPCRE::NEXT-CHAR) ; ==> ; (ERROR 'CL-PPCRE:PPCRE-SYNTAX-ERROR :POS ; (1- (CL-PPCRE::LEXER-POS CL-PPCRE::LEXER)) :FORMAT-CONTROL ; "Quantifier '~A' not allowed." :FORMAT-ARGUMENTS ; (LIST CL-PPCRE::NEXT-CHAR)) ; ; note: doing signed word to integer coercion (cost 20) ; compiling (DECLAIM (INLINE UNGET-TOKEN)) ; file: /usr/local/lib/common-lisp/cl-ppcre/lexer.lisp ; in: DECLAIM (INLINE UNGET-TOKEN) ; (DECLAIM (INLINE CL-PPCRE::UNGET-TOKEN)) ; --> EVAL-WHEN ; ==> ; (SB-C::%PROCLAIM '(INLINE CL-PPCRE::UNGET-TOKEN) (SB-C:SOURCE-LOCATION)) ; ; caught STYLE-WARNING: ; Proclaiming CL-PPCRE::UNGET-TOKEN to be INLINE, but 1 call to it was previously ; compiled. A declaration of NOTINLINE at the call site will eliminate this ; warning, as will proclaiming and defining the function before its first ; potential use. ; compiling (DEFUN UNGET-TOKEN ...) ; compiling (DECLAIM (INLINE START-OF-SUBEXPR-P)) ; compiling (DEFUN START-OF-SUBEXPR-P ...) ; /wrkdirs/textproc/cl-ppcre-sbcl/cl-ppcre-2.0.3/lexer-TMP.fasl written ; compilation finished in 0:00:00.109 WARNING: Lisp compilation had style-warnings while compiling # ; compiling file "/usr/local/lib/common-lisp/cl-ppcre/parser.lisp" (written 25 JUL 2016 01:40:59 AM): ; compiling (IN-PACKAGE :CL-PPCRE) ; compiling (DEFUN GROUP ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/parser.lisp ; in: DEFUN GROUP ; (CL-PPCRE::SIGNAL-SYNTAX-ERROR* (+ CL-PPCRE::OPEN-PAREN-POS 2) ; "Opening paren has no matching closing paren.") ; ==> ; (ERROR 'CL-PPCRE:PPCRE-SYNTAX-ERROR :POS (+ CL-PPCRE::OPEN-PAREN-POS 2) ; :FORMAT-CONTROL "Opening paren has no matching closing paren." ; :FORMAT-ARGUMENTS (LIST)) ; ; note: doing signed word to integer coercion (cost 20) ; compiling (DEFUN GREEDY-QUANT ...) ; compiling (DEFUN QUANT ...) ; compiling (DEFUN SEQ ...) ; compiling (DEFUN REG-EXPR ...) ; compiling (DEFUN REVERSE-STRINGS ...) ; compiling (DEFUN PARSE-STRING ...) ; /wrkdirs/textproc/cl-ppcre-sbcl/cl-ppcre-2.0.3/parser-TMP.fasl written ; compilation finished in 0:00:00.041 ; compiling file "/usr/local/lib/common-lisp/cl-ppcre/regex-class.lisp" (written 25 JUL 2016 01:40:59 AM): ; compiling (IN-PACKAGE :CL-PPCRE) ; compiling (DEFCLASS REGEX ...) ; compiling (DEFCLASS SEQ ...) ; compiling (DEFCLASS ALTERNATION ...) ; compiling (DEFCLASS LOOKAHEAD ...) ; compiling (DEFCLASS LOOKBEHIND ...) ; compiling (DEFCLASS REPETITION ...) ; compiling (DEFCLASS REGISTER ...) ; compiling (DEFCLASS STANDALONE ...) ; compiling (DEFCLASS BACK-REFERENCE ...) ; compiling (DEFCLASS CHAR-CLASS ...) ; compiling (DEFCLASS STR ...) ; compiling (DEFCLASS ANCHOR ...) ; compiling (DEFCLASS EVERYTHING ...) ; compiling (DEFCLASS WORD-BOUNDARY ...) ; compiling (DEFCLASS BRANCH ...) ; compiling (DEFCLASS FILTER ...) ; compiling (DEFCLASS VOID ...) ; compiling (DEFMETHOD INITIALIZE-INSTANCE ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/regex-class.lisp ; in: DEFMETHOD INITIALIZE-INSTANCE :AFTER (STR) ; (COERCE CL-PPCRE::STR-SLOT 'SIMPLE-STRING) ; --> THE IF REPLACE MAKE-ARRAY LOCALLY MAKE-ARRAY ; ==> ; (LENGTH SB-C::X) ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a (SIMPLE-ARRAY * (*)). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a VECTOR. ; --> THE IF ; ==> ; (REPLACE (MAKE-ARRAY (LENGTH SB-C::X) :ELEMENT-TYPE 'CHARACTER) SB-C::X) ; ; note: unable to ; optimize ; due to type uncertainty: ; The second argument is a SEQUENCE, not a (SIMPLE-ARRAY CHARACTER (*)). ; ; note: unable to ; optimize ; due to type uncertainty: ; The second argument is a SEQUENCE, not a SIMPLE-BASE-STRING. ; (LENGTH (CL-PPCRE::STR CL-PPCRE::STR)) ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a (SIMPLE-ARRAY * (*)). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a VECTOR. ; /wrkdirs/textproc/cl-ppcre-sbcl/cl-ppcre-2.0.3/regex-class-TMP.fasl written ; compilation finished in 0:00:00.026 ; compiling file "/usr/local/lib/common-lisp/cl-ppcre/regex-class-util.lisp" (written 25 JUL 2016 01:40:59 AM): ; compiling (IN-PACKAGE :CL-PPCRE) ; compiling (DEFMETHOD LEN ...) ; compiling (DEFMETHOD STR ...) ; compiling (DEFMETHOD SKIP ...) ; compiling (DEFMETHOD START-OF-END-STRING-P ...) ; compiling (DEFGENERIC CASE-MODE ...) ; compiling (DEFMETHOD CASE-MODE ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/regex-class-util.lisp ; in: DEFMETHOD CASE-MODE (STR T) ; (ZEROP (CL-PPCRE::LEN CL-PPCRE::STR)) ; ==> ; (= (CL-PPCRE::LEN CL-PPCRE::STR) 0) ; ; note: unable to ; open-code FLOAT to RATIONAL comparison ; due to type uncertainty: ; The first argument is a NUMBER, not a FLOAT. ; ; note: unable to open code because: The operands might not be the same type. ; compiling (DEFMETHOD CASE-MODE ...) ; compiling (DEFGENERIC COPY-REGEX ...) ; compiling (DEFMETHOD COPY-REGEX ...) ; compiling (DEFMETHOD COPY-REGEX ...) ; compiling (DEFMETHOD COPY-REGEX ...) ; compiling (DEFMETHOD COPY-REGEX ...) ; compiling (DEFMETHOD COPY-REGEX ...) ; compiling (DEFMETHOD COPY-REGEX ...) ; compiling (DEFMETHOD COPY-REGEX ...) ; compiling (DEFMETHOD COPY-REGEX ...) ; compiling (DEFMETHOD COPY-REGEX ...) ; compiling (DEFMETHOD COPY-REGEX ...) ; compiling (DEFMETHOD COPY-REGEX ...) ; compiling (DEFMETHOD COPY-REGEX ...) ; compiling (DEFMETHOD COPY-REGEX ...) ; compiling (DEFMETHOD COPY-REGEX ...) ; compiling (DEFMETHOD COPY-REGEX ...) ; compiling (DEFMETHOD COPY-REGEX ...) ; compiling (DEFGENERIC REMOVE-REGISTERS ...) ; compiling (DEFMETHOD REMOVE-REGISTERS ...) ; compiling (DEFMETHOD REMOVE-REGISTERS ...) ; compiling (DEFMETHOD REMOVE-REGISTERS ...) ; compiling (DEFMETHOD REMOVE-REGISTERS ...) ; compiling (DEFMETHOD REMOVE-REGISTERS ...) ; compiling (DEFMETHOD REMOVE-REGISTERS ...) ; compiling (DEFMETHOD REMOVE-REGISTERS ...) ; compiling (DEFMETHOD REMOVE-REGISTERS ...) ; compiling (DEFMETHOD REMOVE-REGISTERS ...) ; compiling (DEFGENERIC EVERYTHINGP ...) ; compiling (DEFMETHOD EVERYTHINGP ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/regex-class-util.lisp ; in: DEFMETHOD EVERYTHINGP (SEQ) ; (LENGTH CL-PPCRE::CLEANED-ELEMENTS) ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a (OR (SIMPLE-ARRAY * (*)) CONS NULL ; SB-KERNEL:EXTENDED-SEQUENCE), not a (SIMPLE-ARRAY ; * (*)). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a (OR (SIMPLE-ARRAY * (*)) CONS NULL ; SB-KERNEL:EXTENDED-SEQUENCE), not a VECTOR. ; compiling (DEFMETHOD EVERYTHINGP ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/regex-class-util.lisp ; in: DEFMETHOD EVERYTHINGP (ALTERNATION) ; (DEFMETHOD CL-PPCRE::EVERYTHINGP ; ((CL-PPCRE::ALTERNATION CL-PPCRE::ALTERNATION)) ; (DECLARE ; (OPTIMIZE SPEED (SAFETY 0) (SPACE 0) (DEBUG 1) (COMPILATION-SPEED 0))) ; (WITH-SLOTS (CL-PPCRE::CHOICES) ; CL-PPCRE::ALTERNATION ; (AND (= 1 (LENGTH CL-PPCRE::CHOICES)) ; (CL-PPCRE::EVERYTHINGP (FIRST CL-PPCRE::CHOICES))))) ; --> PROGN EVAL-WHEN SB-PCL::%DEFMETHOD-EXPANDER PROGN SB-PCL::LOAD-DEFMETHOD ; --> SB-PCL::LOAD-DEFMETHOD LIST* LET* SB-INT:NAMED-LAMBDA FUNCTION ; --> SYMBOL-MACROLET SB-PCL::FAST-LEXICAL-METHOD-FUNCTIONS ; --> SB-PCL::BIND-FAST-LEXICAL-METHOD-FUNCTIONS FLET SB-PCL::BIND-ARGS LET* ; --> LOCALLY SYMBOL-MACROLET BLOCK LET SYMBOL-MACROLET IF = ; ==> ; (LENGTH (SB-PCL::ACCESSOR-SLOT-VALUE #:G331 'CL-PPCRE::CHOICES)) ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a (SIMPLE-ARRAY * (*)). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a VECTOR. ; compiling (DEFMETHOD EVERYTHINGP ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/regex-class-util.lisp ; in: DEFMETHOD EVERYTHINGP (REPETITION) ; (DEFMETHOD CL-PPCRE::EVERYTHINGP ; ((CL-PPCRE::REPETITION CL-PPCRE::REPETITION)) ; (DECLARE ; (OPTIMIZE SPEED (SAFETY 0) (SPACE 0) (DEBUG 1) (COMPILATION-SPEED 0))) ; (WITH-SLOTS (CL-PPCRE::MAXIMUM CL-PPCRE::MINIMUM CL-PPCRE::REGEX) ; CL-PPCRE::REPETITION ; (AND CL-PPCRE::MAXIMUM (= 1 CL-PPCRE::MINIMUM CL-PPCRE::MAXIMUM) ; (CL-PPCRE::EVERYTHINGP CL-PPCRE::REGEX)))) ; --> PROGN EVAL-WHEN SB-PCL::%DEFMETHOD-EXPANDER PROGN SB-PCL::LOAD-DEFMETHOD ; --> SB-PCL::LOAD-DEFMETHOD LIST* LET* SB-INT:NAMED-LAMBDA FUNCTION ; --> SYMBOL-MACROLET SB-PCL::FAST-LEXICAL-METHOD-FUNCTIONS ; --> SB-PCL::BIND-FAST-LEXICAL-METHOD-FUNCTIONS FLET SB-PCL::BIND-ARGS LET* ; --> LOCALLY SYMBOL-MACROLET BLOCK LET SYMBOL-MACROLET IF IF = ; --> (LAMBDA (#:G345 #:G344 #:G343) (DECLARE (TYPE NUMBER #:G345 #:G344 #:G343)) (IF (= #:G345 #:G344) (IF (= #:G344 #:G343) T NIL) NIL)) ; --> SB-C::%FUNCALL IF ; ==> ; (= #:G345 #:G344) ; ; note: unable to ; open-code FLOAT to RATIONAL comparison ; due to type uncertainty: ; The first argument is a NUMBER, not a FLOAT. ; ; note: unable to open code because: The operands might not be the same type. ; --> PROGN EVAL-WHEN SB-PCL::%DEFMETHOD-EXPANDER PROGN SB-PCL::LOAD-DEFMETHOD ; --> SB-PCL::LOAD-DEFMETHOD LIST* LET* SB-INT:NAMED-LAMBDA FUNCTION ; --> SYMBOL-MACROLET SB-PCL::FAST-LEXICAL-METHOD-FUNCTIONS ; --> SB-PCL::BIND-FAST-LEXICAL-METHOD-FUNCTIONS FLET SB-PCL::BIND-ARGS LET* ; --> LOCALLY SYMBOL-MACROLET BLOCK LET SYMBOL-MACROLET IF IF = ; --> (LAMBDA (#:G345 #:G344 #:G343) (DECLARE (TYPE NUMBER #:G345 #:G344 #:G343)) (IF (= #:G345 #:G344) (IF (= #:G344 #:G343) T NIL) NIL)) ; --> SB-C::%FUNCALL IF IF ; ==> ; (= #:G344 #:G343) ; ; note: unable to ; open-code FLOAT to RATIONAL comparison ; due to type uncertainty: ; The first argument is a NUMBER, not a FLOAT. ; The second argument is a NUMBER, not a RATIONAL. ; ; note: unable to open code because: The operands might not be the same type. ; ; note: forced to do GENERIC-= (cost 10) ; unable to do inline float comparison (cost 3) because: ; The first argument is a NUMBER, not a DOUBLE-FLOAT. ; The second argument is a NUMBER, not a (COMPLEX DOUBLE-FLOAT). ; unable to do inline float comparison (cost 3) because: ; The first argument is a NUMBER, not a (COMPLEX DOUBLE-FLOAT). ; The second argument is a NUMBER, not a (COMPLEX DOUBLE-FLOAT). ; etc. ; compiling (DEFMETHOD EVERYTHINGP ...) ; compiling (DEFMETHOD EVERYTHINGP ...) ; compiling (DEFMETHOD EVERYTHINGP ...) ; compiling (DEFMETHOD EVERYTHINGP ...) ; compiling (DEFGENERIC REGEX-LENGTH ...) ; compiling (DEFMETHOD REGEX-LENGTH ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/regex-class-util.lisp ; in: DEFMETHOD REGEX-LENGTH (SEQ) ; (LOOP CL-PPCRE::FOR CL-PPCRE::SUB-REGEX CL-PPCRE::IN (CL-PPCRE::ELEMENTS ; CL-PPCRE::SEQ) ; CL-PPCRE::FOR CL-PPCRE::LEN = (CL-PPCRE::REGEX-LENGTH ; CL-PPCRE::SUB-REGEX) ; IF (NOT CL-PPCRE::LEN) ; DO ...) ; --> BLOCK LET LET SB-LOOP::WITH-SUM-COUNT LET SB-LOOP::LOOP-BODY TAGBODY SETQ ; --> THE ; ==> ; (+ #:LOOP-SUM-394 CL-PPCRE::LEN) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline float arithmetic (cost 2) because: ; The first argument is a NUMBER, not a DOUBLE-FLOAT. ; The second argument is a NUMBER, not a DOUBLE-FLOAT. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES DOUBLE-FLOAT ; &REST T). ; unable to do inline float arithmetic (cost 2) because: ; The first argument is a NUMBER, not a SINGLE-FLOAT. ; The second argument is a NUMBER, not a SINGLE-FLOAT. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES SINGLE-FLOAT ; &REST T). ; etc. ; compiling (DEFMETHOD REGEX-LENGTH ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/regex-class-util.lisp ; in: DEFMETHOD REGEX-LENGTH (ALTERNATION) ; (/= CL-PPCRE::LEN CL-PPCRE::OLD-LEN) ; --> IF ; ==> ; (= CL-PPCRE::LEN CL-PPCRE::OLD-LEN) ; ; note: unable to ; open-code FLOAT to RATIONAL comparison ; due to type uncertainty: ; The first argument is a NUMBER, not a FLOAT. ; The second argument is a NUMBER, not a RATIONAL. ; ; note: unable to open code because: The operands might not be the same type. ; ; note: forced to do GENERIC-= (cost 10) ; unable to do inline float comparison (cost 3) because: ; The first argument is a NUMBER, not a DOUBLE-FLOAT. ; The second argument is a NUMBER, not a (COMPLEX DOUBLE-FLOAT). ; unable to do inline float comparison (cost 3) because: ; The first argument is a NUMBER, not a (COMPLEX DOUBLE-FLOAT). ; The second argument is a NUMBER, not a (COMPLEX DOUBLE-FLOAT). ; etc. ; compiling (DEFMETHOD REGEX-LENGTH ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/regex-class-util.lisp ; in: DEFMETHOD REGEX-LENGTH (BRANCH) ; (EQL CL-PPCRE::THEN-LENGTH ; (CL-PPCRE::REGEX-LENGTH (CL-PPCRE::ELSE-REGEX CL-PPCRE::BRANCH))) ; ; note: forced to do GENERIC-EQL (cost 10) ; unable to do inline float comparison (cost 4) because: ; The first argument is a T, not a DOUBLE-FLOAT. ; The second argument is a T, not a DOUBLE-FLOAT. ; unable to do inline float comparison (cost 4) because: ; The first argument is a T, not a SINGLE-FLOAT. ; The second argument is a T, not a SINGLE-FLOAT. ; etc. ; compiling (DEFMETHOD REGEX-LENGTH ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/regex-class-util.lisp ; in: DEFMETHOD REGEX-LENGTH (REPETITION) ; (DEFMETHOD CL-PPCRE::REGEX-LENGTH ; ((CL-PPCRE::REPETITION CL-PPCRE::REPETITION)) ; (DECLARE ; (OPTIMIZE SPEED (SAFETY 0) (SPACE 0) (DEBUG 1) (COMPILATION-SPEED 0))) ; (WITH-SLOTS (CL-PPCRE::LEN CL-PPCRE::MINIMUM CL-PPCRE::MAXIMUM) ; CL-PPCRE::REPETITION ; (IF (AND CL-PPCRE::LEN (EQL CL-PPCRE::MINIMUM CL-PPCRE::MAXIMUM)) ; (* CL-PPCRE::MINIMUM CL-PPCRE::LEN) ; NIL))) ; --> PROGN EVAL-WHEN SB-PCL::%DEFMETHOD-EXPANDER PROGN SB-PCL::LOAD-DEFMETHOD ; --> SB-PCL::LOAD-DEFMETHOD LIST* LET* SB-INT:NAMED-LAMBDA FUNCTION ; --> SYMBOL-MACROLET SB-PCL::FAST-LEXICAL-METHOD-FUNCTIONS ; --> SB-PCL::BIND-FAST-LEXICAL-METHOD-FUNCTIONS FLET SB-PCL::BIND-ARGS LET* ; --> LOCALLY SYMBOL-MACROLET BLOCK LET SYMBOL-MACROLET IF ; ==> ; (* (SB-PCL::ACCESSOR-SLOT-VALUE #:G425 'CL-PPCRE::MINIMUM) ; (SB-PCL::ACCESSOR-SLOT-VALUE #:G425 'CL-PPCRE::LEN)) ; ; note: unable to ; convert x*2^k to shift ; due to type uncertainty: ; The first argument is a NUMBER, not a INTEGER. ; The second argument is a NUMBER, not a INTEGER. ; --> PROGN EVAL-WHEN SB-PCL::%DEFMETHOD-EXPANDER PROGN SB-PCL::LOAD-DEFMETHOD ; --> SB-PCL::LOAD-DEFMETHOD LIST* LET* SB-INT:NAMED-LAMBDA FUNCTION ; --> SYMBOL-MACROLET SB-PCL::FAST-LEXICAL-METHOD-FUNCTIONS ; --> SB-PCL::BIND-FAST-LEXICAL-METHOD-FUNCTIONS FLET SB-PCL::BIND-ARGS LET* ; --> LOCALLY SYMBOL-MACROLET BLOCK LET SYMBOL-MACROLET IF IF THE ; ==> ; (EQL (SB-PCL::ACCESSOR-SLOT-VALUE #:G425 'CL-PPCRE::MINIMUM) ; (SB-PCL::ACCESSOR-SLOT-VALUE #:G425 'CL-PPCRE::MAXIMUM)) ; ; note: forced to do GENERIC-EQL (cost 10) ; unable to do inline float comparison (cost 4) because: ; The first argument is a T, not a DOUBLE-FLOAT. ; The second argument is a T, not a DOUBLE-FLOAT. ; unable to do inline float comparison (cost 4) because: ; The first argument is a T, not a SINGLE-FLOAT. ; The second argument is a T, not a SINGLE-FLOAT. ; etc. ; --> PROGN EVAL-WHEN SB-PCL::%DEFMETHOD-EXPANDER PROGN SB-PCL::LOAD-DEFMETHOD ; --> SB-PCL::LOAD-DEFMETHOD LIST* LET* SB-INT:NAMED-LAMBDA FUNCTION ; --> SYMBOL-MACROLET SB-PCL::FAST-LEXICAL-METHOD-FUNCTIONS ; --> SB-PCL::BIND-FAST-LEXICAL-METHOD-FUNCTIONS FLET SB-PCL::BIND-ARGS LET* ; --> LOCALLY SYMBOL-MACROLET BLOCK LET SYMBOL-MACROLET IF ; ==> ; (* (SB-PCL::ACCESSOR-SLOT-VALUE #:G425 'CL-PPCRE::MINIMUM) ; (SB-PCL::ACCESSOR-SLOT-VALUE #:G425 'CL-PPCRE::LEN)) ; ; note: forced to do GENERIC-* (cost 30) ; unable to do inline float arithmetic (cost 4) because: ; The first argument is a NUMBER, not a (COMPLEX SINGLE-FLOAT). ; The second argument is a NUMBER, not a SINGLE-FLOAT. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES ; (COMPLEX SINGLE-FLOAT) ; &REST T). ; unable to do inline float arithmetic (cost 4) because: ; The first argument is a NUMBER, not a SINGLE-FLOAT. ; The second argument is a NUMBER, not a SINGLE-FLOAT. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES SINGLE-FLOAT ; &REST T). ; etc. ; compiling (DEFMETHOD REGEX-LENGTH ...) ; compiling (DEFMETHOD REGEX-LENGTH ...) ; compiling (DEFMETHOD REGEX-LENGTH ...) ; compiling (DEFMETHOD REGEX-LENGTH ...) ; compiling (DEFMETHOD REGEX-LENGTH ...) ; compiling (DEFMETHOD REGEX-LENGTH ...) ; compiling (DEFMETHOD REGEX-LENGTH ...) ; compiling (DEFMETHOD REGEX-LENGTH ...) ; compiling (DEFGENERIC REGEX-MIN-LENGTH ...) ; compiling (DEFMETHOD REGEX-MIN-LENGTH ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/regex-class-util.lisp ; in: DEFMETHOD REGEX-MIN-LENGTH (SEQ) ; (LOOP CL-PPCRE::FOR CL-PPCRE::SUB-REGEX CL-PPCRE::IN (CL-PPCRE::ELEMENTS ; CL-PPCRE::SEQ) ; CL-PPCRE::FOR CL-PPCRE::LEN = (CL-PPCRE::REGEX-MIN-LENGTH ; CL-PPCRE::SUB-REGEX) ; CL-PPCRE::SUM CL-PPCRE::LEN) ; --> BLOCK LET LET SB-LOOP::WITH-SUM-COUNT LET SB-LOOP::LOOP-BODY TAGBODY SETQ ; --> THE ; ==> ; (+ #:LOOP-SUM-511 CL-PPCRE::LEN) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline float arithmetic (cost 2) because: ; The first argument is a NUMBER, not a DOUBLE-FLOAT. ; The second argument is a NUMBER, not a DOUBLE-FLOAT. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES DOUBLE-FLOAT ; &REST T). ; unable to do inline float arithmetic (cost 2) because: ; The first argument is a NUMBER, not a SINGLE-FLOAT. ; The second argument is a NUMBER, not a SINGLE-FLOAT. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES SINGLE-FLOAT ; &REST T). ; etc. ; compiling (DEFMETHOD REGEX-MIN-LENGTH ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/regex-class-util.lisp ; in: DEFMETHOD REGEX-MIN-LENGTH (ALTERNATION) ; (LOOP CL-PPCRE::FOR CL-PPCRE::SUB-REGEX CL-PPCRE::IN (CL-PPCRE::CHOICES ; CL-PPCRE::ALTERNATION) ; CL-PPCRE::FOR CL-PPCRE::LEN = (CL-PPCRE::REGEX-MIN-LENGTH ; CL-PPCRE::SUB-REGEX) ; CL-PPCRE::MINIMIZE CL-PPCRE::LEN) ; --> BLOCK LET LET SB-LOOP::WITH-MINIMAX-VALUE LET SB-LOOP::LOOP-BODY TAGBODY ; --> SB-LOOP::LOOP-ACCUMULATE-MINIMAX-VALUE PROGN WHEN IF OR LET IF OR THE < ; --> IF ; ==> ; (< #:LOOP-MAXMIN-TEMP-528 #:LOOP-MAXMIN-527) ; ; note: unable to ; open-code FLOAT to RATIONAL comparison ; due to type uncertainty: ; The first argument is a REAL, not a FLOAT. ; The second argument is a REAL, not a RATIONAL. ; ; note: forced to do GENERIC-< (cost 10) ; unable to do inline float comparison (cost 3) because: ; The first argument is a REAL, not a SINGLE-FLOAT. ; The second argument is a REAL, not a SINGLE-FLOAT. ; unable to do inline float comparison (cost 3) because: ; The first argument is a REAL, not a DOUBLE-FLOAT. ; The second argument is a REAL, not a DOUBLE-FLOAT. ; etc. ; compiling (DEFMETHOD REGEX-MIN-LENGTH ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/regex-class-util.lisp ; in: DEFMETHOD REGEX-MIN-LENGTH (BRANCH) ; (MIN (CL-PPCRE::REGEX-MIN-LENGTH (CL-PPCRE::THEN-REGEX CL-PPCRE::BRANCH)) ; (CL-PPCRE::REGEX-MIN-LENGTH (CL-PPCRE::ELSE-REGEX CL-PPCRE::BRANCH))) ; --> LET LET IF <= OR LET < IF ; ==> ; (< SB-C::X SB-C::Y) ; ; note: unable to ; open-code FLOAT to RATIONAL comparison ; due to type uncertainty: ; The first argument is a REAL, not a FLOAT. ; The second argument is a REAL, not a RATIONAL. ; --> LET LET IF <= OR LET IF OR THE = IF ; ==> ; (= SB-C::X SB-C::Y) ; ; note: unable to ; open-code FLOAT to RATIONAL comparison ; due to type uncertainty: ; The first argument is a REAL, not a FLOAT. ; The second argument is a REAL, not a RATIONAL. ; ; note: unable to open code because: The operands might not be the same type. ; --> LET LET IF <= OR LET < IF ; ==> ; (< SB-C::X SB-C::Y) ; ; note: forced to do GENERIC-< (cost 10) ; unable to do inline float comparison (cost 3) because: ; The first argument is a REAL, not a SINGLE-FLOAT. ; The second argument is a REAL, not a SINGLE-FLOAT. ; unable to do inline float comparison (cost 3) because: ; The first argument is a REAL, not a DOUBLE-FLOAT. ; The second argument is a REAL, not a DOUBLE-FLOAT. ; etc. ; --> LET LET IF <= OR LET IF OR THE = IF ; ==> ; (= SB-C::X SB-C::Y) ; ; note: forced to do GENERIC-= (cost 10) ; unable to do inline float comparison (cost 3) because: ; The first argument is a REAL, not a DOUBLE-FLOAT. ; The second argument is a REAL, not a DOUBLE-FLOAT. ; unable to do inline float comparison (cost 3) because: ; The first argument is a REAL, not a SINGLE-FLOAT. ; The second argument is a REAL, not a SINGLE-FLOAT. ; compiling (DEFMETHOD REGEX-MIN-LENGTH ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/regex-class-util.lisp ; in: DEFMETHOD REGEX-MIN-LENGTH (REPETITION) ; (* (CL-PPCRE::MINIMUM CL-PPCRE::REPETITION) ; (CL-PPCRE::MIN-LEN CL-PPCRE::REPETITION)) ; ; note: unable to ; convert x*2^k to shift ; due to type uncertainty: ; The first argument is a NUMBER, not a INTEGER. ; The second argument is a NUMBER, not a INTEGER. ; ; note: forced to do GENERIC-* (cost 30) ; unable to do inline float arithmetic (cost 4) because: ; The first argument is a NUMBER, not a (COMPLEX SINGLE-FLOAT). ; The second argument is a NUMBER, not a SINGLE-FLOAT. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES ; (COMPLEX SINGLE-FLOAT) ; &REST T). ; unable to do inline float arithmetic (cost 4) because: ; The first argument is a NUMBER, not a SINGLE-FLOAT. ; The second argument is a NUMBER, not a SINGLE-FLOAT. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES SINGLE-FLOAT ; &REST T). ; etc. ; compiling (DEFMETHOD REGEX-MIN-LENGTH ...) ; compiling (DEFMETHOD REGEX-MIN-LENGTH ...) ; compiling (DEFMETHOD REGEX-MIN-LENGTH ...) ; compiling (DEFMETHOD REGEX-MIN-LENGTH ...) ; compiling (DEFMETHOD REGEX-MIN-LENGTH ...) ; compiling (DEFMETHOD REGEX-MIN-LENGTH ...) ; compiling (DEFMETHOD REGEX-MIN-LENGTH ...) ; compiling (DEFGENERIC COMPUTE-OFFSETS ...) ; compiling (DEFMETHOD COMPUTE-OFFSETS ...) ; compiling (DEFMETHOD COMPUTE-OFFSETS ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/regex-class-util.lisp ; in: DEFMETHOD COMPUTE-OFFSETS (ALTERNATION T) ; (/= CL-PPCRE::CURR-OFFSET CL-PPCRE::OLD-OFFSET) ; --> IF ; ==> ; (= CL-PPCRE::CURR-OFFSET CL-PPCRE::OLD-OFFSET) ; ; note: unable to ; open-code FLOAT to RATIONAL comparison ; due to type uncertainty: ; The first argument is a NUMBER, not a FLOAT. ; The second argument is a NUMBER, not a RATIONAL. ; ; note: unable to open code because: The operands might not be the same type. ; ; note: forced to do GENERIC-= (cost 10) ; unable to do inline float comparison (cost 3) because: ; The first argument is a NUMBER, not a DOUBLE-FLOAT. ; The second argument is a NUMBER, not a (COMPLEX DOUBLE-FLOAT). ; unable to do inline float comparison (cost 3) because: ; The first argument is a NUMBER, not a (COMPLEX DOUBLE-FLOAT). ; The second argument is a NUMBER, not a (COMPLEX DOUBLE-FLOAT). ; etc. ; compiling (DEFMETHOD COMPUTE-OFFSETS ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/regex-class-util.lisp ; in: DEFMETHOD COMPUTE-OFFSETS (BRANCH T) ; (EQL CL-PPCRE::THEN-OFFSET ; (CL-PPCRE::COMPUTE-OFFSETS (CL-PPCRE::ELSE-REGEX CL-PPCRE::BRANCH) ; CL-PPCRE::START-POS)) ; ; note: forced to do GENERIC-EQL (cost 10) ; unable to do inline float comparison (cost 4) because: ; The first argument is a T, not a DOUBLE-FLOAT. ; The second argument is a T, not a DOUBLE-FLOAT. ; unable to do inline float comparison (cost 4) because: ; The first argument is a T, not a SINGLE-FLOAT. ; The second argument is a T, not a SINGLE-FLOAT. ; etc. ; compiling (DEFMETHOD COMPUTE-OFFSETS ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/regex-class-util.lisp ; in: DEFMETHOD COMPUTE-OFFSETS (REPETITION T) ; (DEFMETHOD CL-PPCRE::COMPUTE-OFFSETS ; ((CL-PPCRE::REPETITION CL-PPCRE::REPETITION) CL-PPCRE::START-POS) ; (DECLARE ; (OPTIMIZE SPEED (SAFETY 0) (SPACE 0) (DEBUG 1) (COMPILATION-SPEED 0))) ; (WITH-SLOTS (CL-PPCRE::LEN CL-PPCRE::MINIMUM CL-PPCRE::MAXIMUM) ; CL-PPCRE::REPETITION ; (IF (AND CL-PPCRE::LEN (EQ CL-PPCRE::MINIMUM CL-PPCRE::MAXIMUM)) ; (+ CL-PPCRE::START-POS (* CL-PPCRE::MINIMUM CL-PPCRE::LEN)) ; NIL))) ; --> PROGN EVAL-WHEN SB-PCL::%DEFMETHOD-EXPANDER PROGN SB-PCL::LOAD-DEFMETHOD ; --> SB-PCL::LOAD-DEFMETHOD LIST* LET* SB-INT:NAMED-LAMBDA FUNCTION ; --> SYMBOL-MACROLET SB-PCL::FAST-LEXICAL-METHOD-FUNCTIONS ; --> SB-PCL::BIND-FAST-LEXICAL-METHOD-FUNCTIONS FLET SB-PCL::BIND-ARGS LET* ; --> LOCALLY SYMBOL-MACROLET BLOCK LET SYMBOL-MACROLET IF + ; ==> ; (* (SB-PCL::ACCESSOR-SLOT-VALUE #:G677 'CL-PPCRE::MINIMUM) ; (SB-PCL::ACCESSOR-SLOT-VALUE #:G677 'CL-PPCRE::LEN)) ; ; note: unable to ; convert x*2^k to shift ; due to type uncertainty: ; The first argument is a NUMBER, not a INTEGER. ; The second argument is a NUMBER, not a INTEGER. ; ; note: forced to do GENERIC-* (cost 30) ; unable to do inline float arithmetic (cost 4) because: ; The first argument is a NUMBER, not a (COMPLEX SINGLE-FLOAT). ; The second argument is a NUMBER, not a SINGLE-FLOAT. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES ; (COMPLEX SINGLE-FLOAT) ; &REST T). ; unable to do inline float arithmetic (cost 4) because: ; The first argument is a NUMBER, not a SINGLE-FLOAT. ; The second argument is a NUMBER, not a SINGLE-FLOAT. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES SINGLE-FLOAT ; &REST T). ; etc. ; --> PROGN EVAL-WHEN SB-PCL::%DEFMETHOD-EXPANDER PROGN SB-PCL::LOAD-DEFMETHOD ; --> SB-PCL::LOAD-DEFMETHOD LIST* LET* SB-INT:NAMED-LAMBDA FUNCTION ; --> SYMBOL-MACROLET SB-PCL::FAST-LEXICAL-METHOD-FUNCTIONS ; --> SB-PCL::BIND-FAST-LEXICAL-METHOD-FUNCTIONS FLET SB-PCL::BIND-ARGS LET* ; --> LOCALLY SYMBOL-MACROLET BLOCK LET SYMBOL-MACROLET IF ; ==> ; (+ CL-PPCRE::START-POS ; (* (SB-PCL::ACCESSOR-SLOT-VALUE #:G677 'CL-PPCRE::MINIMUM) ; (SB-PCL::ACCESSOR-SLOT-VALUE #:G677 'CL-PPCRE::LEN))) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline float arithmetic (cost 2) because: ; The first argument is a NUMBER, not a DOUBLE-FLOAT. ; The second argument is a NUMBER, not a DOUBLE-FLOAT. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES DOUBLE-FLOAT ; &REST T). ; unable to do inline float arithmetic (cost 2) because: ; The first argument is a NUMBER, not a SINGLE-FLOAT. ; The second argument is a NUMBER, not a SINGLE-FLOAT. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES SINGLE-FLOAT ; &REST T). ; etc. ; compiling (DEFMETHOD COMPUTE-OFFSETS ...) ; compiling (DEFMETHOD COMPUTE-OFFSETS ...) ; compiling (DEFMETHOD COMPUTE-OFFSETS ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/regex-class-util.lisp ; in: DEFMETHOD COMPUTE-OFFSETS (CHAR-CLASS T) ; (1+ CL-PPCRE::START-POS) ; ==> ; (+ CL-PPCRE::START-POS 1) ; ; note: unable to ; associate +/+ of constants ; due to type uncertainty: ; The first argument is a NUMBER, not a RATIONAL. ; ; note: unable to ; associate +/- of constants ; due to type uncertainty: ; The first argument is a NUMBER, not a RATIONAL. ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline fixnum arithmetic (cost 1) because: ; The first argument is a NUMBER, not a FIXNUM. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a NUMBER, not a FIXNUM. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES FIXNUM &REST T). ; etc. ; compiling (DEFMETHOD COMPUTE-OFFSETS ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/regex-class-util.lisp ; in: DEFMETHOD COMPUTE-OFFSETS (EVERYTHING T) ; (1+ CL-PPCRE::START-POS) ; ==> ; (+ CL-PPCRE::START-POS 1) ; ; note: unable to ; associate +/+ of constants ; due to type uncertainty: ; The first argument is a NUMBER, not a RATIONAL. ; ; note: unable to ; associate +/- of constants ; due to type uncertainty: ; The first argument is a NUMBER, not a RATIONAL. ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline fixnum arithmetic (cost 1) because: ; The first argument is a NUMBER, not a FIXNUM. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a NUMBER, not a FIXNUM. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES FIXNUM &REST T). ; etc. ; compiling (DEFMETHOD COMPUTE-OFFSETS ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/regex-class-util.lisp ; in: DEFMETHOD COMPUTE-OFFSETS (STR T) ; (+ CL-PPCRE::START-POS (CL-PPCRE::LEN CL-PPCRE::STR)) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline float arithmetic (cost 2) because: ; The first argument is a NUMBER, not a DOUBLE-FLOAT. ; The second argument is a NUMBER, not a DOUBLE-FLOAT. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES DOUBLE-FLOAT ; &REST T). ; unable to do inline float arithmetic (cost 2) because: ; The first argument is a NUMBER, not a SINGLE-FLOAT. ; The second argument is a NUMBER, not a SINGLE-FLOAT. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES SINGLE-FLOAT ; &REST T). ; etc. ; compiling (DEFMETHOD COMPUTE-OFFSETS ...) ; compiling (DEFMETHOD COMPUTE-OFFSETS ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/regex-class-util.lisp ; in: DEFMETHOD COMPUTE-OFFSETS (FILTER T) ; (+ CL-PPCRE::START-POS CL-PPCRE::LEN) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline float arithmetic (cost 2) because: ; The first argument is a NUMBER, not a DOUBLE-FLOAT. ; The second argument is a NUMBER, not a DOUBLE-FLOAT. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES DOUBLE-FLOAT ; &REST T). ; unable to do inline float arithmetic (cost 2) because: ; The first argument is a NUMBER, not a SINGLE-FLOAT. ; The second argument is a NUMBER, not a SINGLE-FLOAT. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES SINGLE-FLOAT ; &REST T). ; etc. ; compiling (DEFMETHOD COMPUTE-OFFSETS ...) ; /wrkdirs/textproc/cl-ppcre-sbcl/cl-ppcre-2.0.3/regex-class-util-TMP.fasl written ; compilation finished in 0:00:00.285 ; compiling file "/usr/local/lib/common-lisp/cl-ppcre/convert.lisp" (written 25 JUL 2016 01:40:59 AM): ; compiling (IN-PACKAGE :CL-PPCRE) ; compiling (DEFMACRO CASE-INSENSITIVE-MODE-P ...) ; compiling (DEFMACRO MULTI-LINE-MODE-P ...) ; compiling (DEFMACRO SINGLE-LINE-MODE-P ...) ; compiling (DEFUN SET-FLAG ...) ; compiling (DEFGENERIC RESOLVE-PROPERTY ...) ; compiling (DEFUN CONVERT-CHAR-CLASS-TO-TEST-FUNCTION ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/convert.lisp ; in: DEFUN CONVERT-CHAR-CLASS-TO-TEST-FUNCTION ; (FUNCALL CL-PPCRE::TEST-FUNCTION (CHAR-DOWNCASE CHAR)) ; --> SB-C::%FUNCALL THE ; ==> ; (SB-KERNEL:%COERCE-CALLABLE-TO-FUN CL-PPCRE::TEST-FUNCTION) ; ; note: unable to ; optimize away possible call to FDEFINITION at runtime ; because: ; not known to be a function ; (CHAR-DOWNCASE CHAR) ; ; note: unable to ; open code ; due to type uncertainty: ; The first argument is a CHARACTER, not a BASE-CHAR. ; (FUNCALL CL-PPCRE::TEST-FUNCTION (CHAR-UPCASE CHAR)) ; --> SB-C::%FUNCALL THE ; ==> ; (SB-KERNEL:%COERCE-CALLABLE-TO-FUN CL-PPCRE::TEST-FUNCTION) ; ; note: unable to ; optimize away possible call to FDEFINITION at runtime ; because: ; not known to be a function ; (CHAR-UPCASE CHAR) ; ; note: unable to ; open code ; due to type uncertainty: ; The first argument is a CHARACTER, not a BASE-CHAR. ; (FUNCALL CL-PPCRE::TEST-FUNCTION (CHAR-DOWNCASE CHAR)) ; --> SB-C::%FUNCALL THE ; ==> ; (SB-KERNEL:%COERCE-CALLABLE-TO-FUN CL-PPCRE::TEST-FUNCTION) ; ; note: unable to ; optimize away possible call to FDEFINITION at runtime ; because: ; not known to be a function ; (CHAR-DOWNCASE CHAR) ; ; note: unable to ; open code ; due to type uncertainty: ; The first argument is a CHARACTER, not a BASE-CHAR. ; (FUNCALL CL-PPCRE::TEST-FUNCTION (CHAR-UPCASE CHAR)) ; --> SB-C::%FUNCALL THE ; ==> ; (SB-KERNEL:%COERCE-CALLABLE-TO-FUN CL-PPCRE::TEST-FUNCTION) ; ; note: unable to ; optimize away possible call to FDEFINITION at runtime ; because: ; not known to be a function ; (CHAR-UPCASE CHAR) ; ; note: unable to ; open code ; due to type uncertainty: ; The first argument is a CHARACTER, not a BASE-CHAR. ; (FUNCALL CL-PPCRE::TEST-FUNCTION CHAR) ; --> SB-C::%FUNCALL THE ; ==> ; (SB-KERNEL:%COERCE-CALLABLE-TO-FUN CL-PPCRE::TEST-FUNCTION) ; ; note: unable to ; optimize away possible call to FDEFINITION at runtime ; because: ; not known to be a function ; ; note: unable to ; optimize away possible call to FDEFINITION at runtime ; because: ; not known to be a function ; (CHAR-DOWNCASE CHAR) ; ; note: unable to ; open code ; due to type uncertainty: ; The first argument is a CHARACTER, not a BASE-CHAR. ; (CHAR-UPCASE CHAR) ; ; note: unable to ; open code ; due to type uncertainty: ; The first argument is a CHARACTER, not a BASE-CHAR. ; (FUNCALL CL-PPCRE::TEST-FUNCTION CL-PPCRE::CHAR-DOWN) ; --> SB-C::%FUNCALL THE ; ==> ; (SB-KERNEL:%COERCE-CALLABLE-TO-FUN CL-PPCRE::TEST-FUNCTION) ; ; note: unable to ; optimize away possible call to FDEFINITION at runtime ; because: ; not known to be a function ; (FUNCALL CL-PPCRE::TEST-FUNCTION CL-PPCRE::CHAR-UP) ; --> SB-C::%FUNCALL THE ; ==> ; (SB-KERNEL:%COERCE-CALLABLE-TO-FUN CL-PPCRE::TEST-FUNCTION) ; ; note: unable to ; optimize away possible call to FDEFINITION at runtime ; because: ; not known to be a function ; (CHAR-DOWNCASE CHAR) ; ; note: unable to ; open code ; due to type uncertainty: ; The first argument is a CHARACTER, not a BASE-CHAR. ; (CHAR-UPCASE CHAR) ; ; note: unable to ; open code ; due to type uncertainty: ; The first argument is a CHARACTER, not a BASE-CHAR. ; (FUNCALL CL-PPCRE::TEST-FUNCTION CL-PPCRE::CHAR-DOWN) ; --> SB-C::%FUNCALL THE ; ==> ; (SB-KERNEL:%COERCE-CALLABLE-TO-FUN CL-PPCRE::TEST-FUNCTION) ; ; note: unable to ; optimize away possible call to FDEFINITION at runtime ; because: ; not known to be a function ; (FUNCALL CL-PPCRE::TEST-FUNCTION CL-PPCRE::CHAR-UP) ; --> SB-C::%FUNCALL THE ; ==> ; (SB-KERNEL:%COERCE-CALLABLE-TO-FUN CL-PPCRE::TEST-FUNCTION) ; ; note: unable to ; optimize away possible call to FDEFINITION at runtime ; because: ; not known to be a function ; compiling (DEFUN MAYBE-SPLIT-REPETITION ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/convert.lisp ; in: DEFUN MAYBE-SPLIT-REPETITION ; (- CL-PPCRE::MAXIMUM CL-PPCRE::MINIMUM) ; ; note: doing signed word to integer coercion (cost 20) ; compiling (DEFUN MAYBE-ACCUMULATE ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/convert.lisp ; in: DEFUN MAYBE-ACCUMULATE ; (SETF (SUBSEQ (SLOT-VALUE CL-PPCRE::STARTS-WITH 'CL-PPCRE::STR) ; (- (CL-PPCRE::LEN CL-PPCRE::STARTS-WITH) ; (CL-PPCRE::LEN CL-PPCRE::STR))) ; (CL-PPCRE::STR CL-PPCRE::STR) ; (CL-PPCRE::SKIP CL-PPCRE::STR) T) ; --> PROGN SETF LET* ; ==> ; (REPLACE #:SEQUENCE #:NEW1 :START1 #:START :END1 NIL) ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a SIMPLE-BASE-STRING. ; The second argument is a SEQUENCE, not a SIMPLE-BASE-STRING. ; The result is a (VALUES SEQUENCE &OPTIONAL), not a (VALUES SIMPLE-BASE-STRING ; &REST T). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a (SIMPLE-ARRAY CHARACTER (*)). ; The second argument is a SEQUENCE, not a (SIMPLE-ARRAY CHARACTER (*)). ; The result is a (VALUES SEQUENCE &OPTIONAL), not a (VALUES ; (SIMPLE-ARRAY CHARACTER ; (*)) ; &REST T). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a (SIMPLE-ARRAY SINGLE-FLOAT (*)). ; The second argument is a SEQUENCE, not a (SIMPLE-ARRAY SINGLE-FLOAT (*)). ; The result is a (VALUES SEQUENCE &OPTIONAL), not a (VALUES ; (SIMPLE-ARRAY ; SINGLE-FLOAT (*)) ; &REST T). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a (SIMPLE-ARRAY DOUBLE-FLOAT (*)). ; The second argument is a SEQUENCE, not a (SIMPLE-ARRAY DOUBLE-FLOAT (*)). ; The result is a (VALUES SEQUENCE &OPTIONAL), not a (VALUES ; (SIMPLE-ARRAY ; DOUBLE-FLOAT (*)) ; &REST T). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a SIMPLE-BIT-VECTOR. ; The second argument is a SEQUENCE, not a SIMPLE-BIT-VECTOR. ; The result is a (VALUES SEQUENCE &OPTIONAL), not a (VALUES SIMPLE-BIT-VECTOR ; &REST T). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a (SIMPLE-ARRAY (UNSIGNED-BYTE 2) (*)). ; The second argument is a SEQUENCE, not a (SIMPLE-ARRAY (UNSIGNED-BYTE 2) (*)). ; The result is a (VALUES SEQUENCE &OPTIONAL), not a (VALUES ; (SIMPLE-ARRAY ; (UNSIGNED-BYTE 2) (*)) ; &REST T). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a (SIMPLE-ARRAY (UNSIGNED-BYTE 4) (*)). ; The second argument is a SEQUENCE, not a (SIMPLE-ARRAY (UNSIGNED-BYTE 4) (*)). ; The result is a (VALUES SEQUENCE &OPTIONAL), not a (VALUES ; (SIMPLE-ARRAY ; (UNSIGNED-BYTE 4) (*)) ; &REST T). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a (SIMPLE-ARRAY (UNSIGNED-BYTE 7) (*)). ; The second argument is a SEQUENCE, not a (SIMPLE-ARRAY (UNSIGNED-BYTE 7) (*)). ; The result is a (VALUES SEQUENCE &OPTIONAL), not a (VALUES ; (SIMPLE-ARRAY ; (UNSIGNED-BYTE 7) (*)) ; &REST T). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a (SIMPLE-ARRAY (UNSIGNED-BYTE 8) (*)). ; The second argument is a SEQUENCE, not a (SIMPLE-ARRAY (UNSIGNED-BYTE 8) (*)). ; The result is a (VALUES SEQUENCE &OPTIONAL), not a (VALUES ; (SIMPLE-ARRAY ; (UNSIGNED-BYTE 8) (*)) ; &REST T). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a (SIMPLE-ARRAY (UNSIGNED-BYTE 15) (*)). ; The second argument is a SEQUENCE, not a (SIMPLE-ARRAY (UNSIGNED-BYTE 15) ; (*)). ; The result is a (VALUES SEQUENCE &OPTIONAL), not a (VALUES ; (SIMPLE-ARRAY ; (UNSIGNED-BYTE 15) (*)) ; &REST T). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a (SIMPLE-ARRAY (UNSIGNED-BYTE 16) (*)). ; The second argument is a SEQUENCE, not a (SIMPLE-ARRAY (UNSIGNED-BYTE 16) ; (*)). ; The result is a (VALUES SEQUENCE &OPTIONAL), not a (VALUES ; (SIMPLE-ARRAY ; (UNSIGNED-BYTE 16) (*)) ; &REST T). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a (SIMPLE-ARRAY (UNSIGNED-BYTE 31) (*)). ; The second argument is a SEQUENCE, not a (SIMPLE-ARRAY (UNSIGNED-BYTE 31) ; (*)). ; The result is a (VALUES SEQUENCE &OPTIONAL), not a (VALUES ; (SIMPLE-ARRAY ; (UNSIGNED-BYTE 31) (*)) ; &REST T). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a (SIMPLE-ARRAY (UNSIGNED-BYTE 32) (*)). ; The second argument is a SEQUENCE, not a (SIMPLE-ARRAY (UNSIGNED-BYTE 32) ; (*)). ; The result is a (VALUES SEQUENCE &OPTIONAL), not a (VALUES ; (SIMPLE-ARRAY ; (UNSIGNED-BYTE 32) (*)) ; &REST T). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a (SIMPLE-ARRAY (UNSIGNED-BYTE 62) (*)). ; The second argument is a SEQUENCE, not a (SIMPLE-ARRAY (UNSIGNED-BYTE 62) ; (*)). ; The result is a (VALUES SEQUENCE &OPTIONAL), not a (VALUES ; (SIMPLE-ARRAY ; (UNSIGNED-BYTE 62) (*)) ; &REST T). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a (SIMPLE-ARRAY (UNSIGNED-BYTE 63) (*)). ; The second argument is a SEQUENCE, not a (SIMPLE-ARRAY (UNSIGNED-BYTE 63) ; (*)). ; The result is a (VALUES SEQUENCE &OPTIONAL), not a (VALUES ; (SIMPLE-ARRAY ; (UNSIGNED-BYTE 63) (*)) ; &REST T). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a (SIMPLE-ARRAY (UNSIGNED-BYTE 64) (*)). ; The second argument is a SEQUENCE, not a (SIMPLE-ARRAY (UNSIGNED-BYTE 64) ; (*)). ; The result is a (VALUES SEQUENCE &OPTIONAL), not a (VALUES ; (SIMPLE-ARRAY ; (UNSIGNED-BYTE 64) (*)) ; &REST T). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a (SIMPLE-ARRAY (SIGNED-BYTE 8) (*)). ; The second argument is a SEQUENCE, not a (SIMPLE-ARRAY (SIGNED-BYTE 8) (*)). ; The result is a (VALUES SEQUENCE &OPTIONAL), not a (VALUES ; (SIMPLE-ARRAY ; (SIGNED-BYTE 8) (*)) ; &REST T). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a (SIMPLE-ARRAY (SIGNED-BYTE 16) (*)). ; The second argument is a SEQUENCE, not a (SIMPLE-ARRAY (SIGNED-BYTE 16) (*)). ; The result is a (VALUES SEQUENCE &OPTIONAL), not a (VALUES ; (SIMPLE-ARRAY ; (SIGNED-BYTE 16) (*)) ; &REST T). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a (SIMPLE-ARRAY (SIGNED-BYTE 32) (*)). ; The second argument is a SEQUENCE, not a (SIMPLE-ARRAY (SIGNED-BYTE 32) (*)). ; The result is a (VALUES SEQUENCE &OPTIONAL), not a (VALUES ; (SIMPLE-ARRAY ; (SIGNED-BYTE 32) (*)) ; &REST T). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a (SIMPLE-ARRAY FIXNUM (*)). ; The second argument is a SEQUENCE, not a (SIMPLE-ARRAY FIXNUM (*)). ; The result is a (VALUES SEQUENCE &OPTIONAL), not a (VALUES ; (SIMPLE-ARRAY FIXNUM (*)) ; &REST T). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a (SIMPLE-ARRAY (SIGNED-BYTE 64) (*)). ; The second argument is a SEQUENCE, not a (SIMPLE-ARRAY (SIGNED-BYTE 64) (*)). ; The result is a (VALUES SEQUENCE &OPTIONAL), not a (VALUES ; (SIMPLE-ARRAY ; (SIGNED-BYTE 64) (*)) ; &REST T). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a (SIMPLE-ARRAY (COMPLEX SINGLE-FLOAT) ; (*)). ; The second argument is a SEQUENCE, not a (SIMPLE-ARRAY (COMPLEX SINGLE-FLOAT) ; (*)). ; The result is a (VALUES SEQUENCE &OPTIONAL), not a (VALUES ; (SIMPLE-ARRAY ; (COMPLEX SINGLE-FLOAT) ; (*)) ; &REST T). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a (SIMPLE-ARRAY (COMPLEX DOUBLE-FLOAT) ; (*)). ; The second argument is a SEQUENCE, not a (SIMPLE-ARRAY (COMPLEX DOUBLE-FLOAT) ; (*)). ; The result is a (VALUES SEQUENCE &OPTIONAL), not a (VALUES ; (SIMPLE-ARRAY ; (COMPLEX DOUBLE-FLOAT) ; (*)) ; &REST T). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a SIMPLE-VECTOR. ; The second argument is a SEQUENCE, not a SIMPLE-VECTOR. ; The result is a (VALUES SEQUENCE &OPTIONAL), not a (VALUES SIMPLE-VECTOR ; &REST T). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a SIMPLE-BASE-STRING. ; The second argument is a SEQUENCE, not a (SIMPLE-ARRAY CHARACTER (*)). ; The result is a (VALUES SEQUENCE &OPTIONAL), not a (VALUES SIMPLE-BASE-STRING ; &REST T). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a (SIMPLE-ARRAY CHARACTER (*)). ; The second argument is a SEQUENCE, not a SIMPLE-BASE-STRING. ; The result is a (VALUES SEQUENCE &OPTIONAL), not a (VALUES ; (SIMPLE-ARRAY CHARACTER ; (*)) ; &REST T). ; (SETF (CL-PPCRE::LEN CL-PPCRE::STARTS-WITH) ; (+ (CL-PPCRE::LEN CL-PPCRE::STARTS-WITH) ; (CL-PPCRE::LEN CL-PPCRE::STR))) ; --> LET* FUNCALL SB-C::%FUNCALL ; ==> ; ((SETF CL-PPCRE::LEN) #:NEW139 #:STARTS-WITH140) ; ; note: doing signed word to integer coercion (cost 20) ; compiling (DECLAIM (INLINE CONVERT-AUX)) ; compiling (DEFUN CONVERT-AUX ...) ; compiling (DEFGENERIC CONVERT-COMPOUND-PARSE-TREE ...) ; compiling (DEFMETHOD CONVERT-COMPOUND-PARSE-TREE ...) ; compiling (DEFMETHOD CONVERT-COMPOUND-PARSE-TREE ...) ; compiling (DEFMETHOD CONVERT-COMPOUND-PARSE-TREE ...) ; compiling (DEFMETHOD CONVERT-COMPOUND-PARSE-TREE ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/convert.lisp ; in: DEFMETHOD CONVERT-COMPOUND-PARSE-TREE ((EQL :BRANCH) T) ; (LENGTH (CL-PPCRE::CHOICES CL-PPCRE::ALTERNATIONS)) ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a (SIMPLE-ARRAY * (*)). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a VECTOR. ; (1- (THE FIXNUM CL-PPCRE::TEST-CANDIDATE)) ; ==> ; (- (THE FIXNUM CL-PPCRE::TEST-CANDIDATE) 1) ; ; note: doing signed word to integer coercion (cost 20) ; compiling (DEFMETHOD CONVERT-COMPOUND-PARSE-TREE ...) ; compiling (DEFMETHOD CONVERT-COMPOUND-PARSE-TREE ...) ; compiling (DEFMETHOD CONVERT-COMPOUND-PARSE-TREE ...) ; compiling (DEFMETHOD CONVERT-COMPOUND-PARSE-TREE ...) ; compiling (DEFMETHOD CONVERT-COMPOUND-PARSE-TREE ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/convert.lisp ; in: DEFMETHOD CONVERT-COMPOUND-PARSE-TREE ((EQL :GREEDY-REPETITION) T) ; (ZEROP LENGTH) ; --> = IF ; ==> ; (= LENGTH 0) ; ; note: unable to ; open-code FLOAT to RATIONAL comparison ; due to type uncertainty: ; The first argument is a NUMBER, not a FLOAT. ; ; note: unable to open code because: The operands might not be the same type. ; (1- CL-PPCRE::MAXIMUM) ; ==> ; (- CL-PPCRE::MAXIMUM 1) ; ; note: doing signed word to integer coercion (cost 20) ; (1- CL-PPCRE::MINIMUM) ; ==> ; (- CL-PPCRE::MINIMUM 1) ; ; note: doing signed word to integer coercion (cost 20), for: ; the first result of inline (signed-byte 64) arithmetic ; compiling (DEFMETHOD CONVERT-COMPOUND-PARSE-TREE ...) ; compiling (DEFMETHOD CONVERT-COMPOUND-PARSE-TREE ...) ; compiling (DEFMETHOD CONVERT-COMPOUND-PARSE-TREE ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/convert.lisp ; in: DEFMETHOD CONVERT-COMPOUND-PARSE-TREE ((EQL :NAMED-REGISTER) T) ; (COPY-SEQ (SECOND CL-PPCRE::PARSE-TREE)) ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a VECTOR. ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a LIST. ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a SB-KERNEL:EXTENDED-SEQUENCE. ; compiling (DEFMETHOD CONVERT-COMPOUND-PARSE-TREE ...) ; compiling (DEFMETHOD CONVERT-COMPOUND-PARSE-TREE ...) ; compiling (DEFMETHOD CONVERT-COMPOUND-PARSE-TREE ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/convert.lisp ; in: DEFMETHOD CONVERT-COMPOUND-PARSE-TREE ((EQL :BACK-REFERENCE) T) ; (STRING= CL-PPCRE::NAME CL-PPCRE::BACKREF-NAME) ; ==> ; (SB-KERNEL:STRING=* SB-C::STRING1 SB-C::STRING2 SB-C::START1 SB-C::END1 ; SB-C::START2 SB-C::END2) ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a (OR (VECTOR CHARACTER) (VECTOR NIL) BASE-STRING ; SYMBOL CHARACTER), not a STRING. ; The second argument is a (OR (VECTOR CHARACTER) (VECTOR NIL) BASE-STRING ; SYMBOL CHARACTER), not a STRING. ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a (OR (VECTOR CHARACTER) (VECTOR NIL) BASE-STRING ; SYMBOL CHARACTER), not a SIMPLE-BASE-STRING. ; The second argument is a (OR (VECTOR CHARACTER) (VECTOR NIL) BASE-STRING ; SYMBOL CHARACTER), not a SIMPLE-BASE-STRING. ; (COPY-SEQ CL-PPCRE::BACKREF-NAME) ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a VECTOR. ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a LIST. ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a SB-KERNEL:EXTENDED-SEQUENCE. ; (- CL-PPCRE::REG-NUM CL-PPCRE::REG-INDEX) ; ; note: forced to do GENERIC-- (cost 10) ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a NUMBER, not a FIXNUM. ; The second argument is a UNSIGNED-BYTE, not a FIXNUM. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline (signed-byte 64) arithmetic (cost 5) because: ; The first argument is a NUMBER, not a (SIGNED-BYTE 64). ; The second argument is a UNSIGNED-BYTE, not a (SIGNED-BYTE 64). ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES (SIGNED-BYTE 64) ; &REST T). ; etc. ; (LOOP CL-PPCRE::FOR CL-PPCRE::NAME CL-PPCRE::IN CL-PPCRE::REG-NAMES ; CL-PPCRE::FOR CL-PPCRE::REG-INDEX CL-PPCRE::FROM 0 ; WHEN (STRING= CL-PPCRE::NAME CL-PPCRE::BACKREF-NAME) ; CL-PPCRE::COLLECT ...) ; --> BLOCK LET LET SB-LOOP::WITH-LOOP-LIST-COLLECTION-HEAD LET* ; --> SB-LOOP::LOOP-BODY TAGBODY SB-LOOP::LOOP-REALLY-DESETQ SETQ THE 1+ ; ==> ; (+ CL-PPCRE::REG-INDEX 1) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline fixnum arithmetic (cost 1) because: ; The first argument is a UNSIGNED-BYTE, not a FIXNUM. ; The result is a (VALUES (INTEGER 1) &OPTIONAL), not a (VALUES FIXNUM ; &REST T). ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a UNSIGNED-BYTE, not a FIXNUM. ; The result is a (VALUES (INTEGER 1) &OPTIONAL), not a (VALUES FIXNUM ; &REST T). ; etc. ; (1- CL-PPCRE::BACKREF-NUMBER) ; ==> ; (- CL-PPCRE::BACKREF-NUMBER 1) ; ; note: forced to do GENERIC-- (cost 10) ; unable to do inline fixnum arithmetic (cost 1) because: ; The first argument is a NUMBER, not a FIXNUM. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a NUMBER, not a FIXNUM. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES FIXNUM &REST T). ; etc. ; compiling (DEFMETHOD CONVERT-COMPOUND-PARSE-TREE ...) ; compiling (DEFMETHOD CONVERT-COMPOUND-PARSE-TREE ...) ; compiling (DEFMETHOD CONVERT-COMPOUND-PARSE-TREE ...) ; compiling (DEFMETHOD CONVERT-COMPOUND-PARSE-TREE ...) ; compiling (DEFMETHOD CONVERT-COMPOUND-PARSE-TREE ...) ; compiling (DEFMETHOD CONVERT-COMPOUND-PARSE-TREE ...) ; compiling (DEFGENERIC CONVERT-SIMPLE-PARSE-TREE ...) ; compiling (DEFMETHOD CONVERT-SIMPLE-PARSE-TREE ...) ; compiling (DEFMETHOD CONVERT-SIMPLE-PARSE-TREE ...) ; compiling (DEFMETHOD CONVERT-SIMPLE-PARSE-TREE ...) ; compiling (DEFUN CONVERT ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/convert.lisp ; in: DEFUN CONVERT ; (COERCE (SLOT-VALUE CL-PPCRE::STARTS-WITH 'CL-PPCRE::STR) 'SIMPLE-STRING) ; --> THE IF REPLACE MAKE-ARRAY LOCALLY MAKE-ARRAY ; ==> ; (LENGTH SB-C::X) ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a (SIMPLE-ARRAY * (*)). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a VECTOR. ; --> THE IF ; ==> ; (REPLACE (MAKE-ARRAY (LENGTH SB-C::X) :ELEMENT-TYPE 'CHARACTER) SB-C::X) ; ; note: unable to ; optimize ; due to type uncertainty: ; The second argument is a SEQUENCE, not a (SIMPLE-ARRAY CHARACTER (*)). ; ; note: unable to ; optimize ; due to type uncertainty: ; The second argument is a SEQUENCE, not a SIMPLE-BASE-STRING. ; /wrkdirs/textproc/cl-ppcre-sbcl/cl-ppcre-2.0.3/convert-TMP.fasl written ; compilation finished in 0:00:00.492 ; compiling file "/usr/local/lib/common-lisp/cl-ppcre/optimize.lisp" (written 25 JUL 2016 01:40:59 AM): ; compiling (IN-PACKAGE :CL-PPCRE) ; compiling (DEFGENERIC FLATTEN ...) ; compiling (DEFMETHOD FLATTEN ...) ; compiling (DEFMETHOD FLATTEN ...) ; compiling (DEFMETHOD FLATTEN ...) ; compiling (DEFMETHOD FLATTEN ...) ; compiling (DEFGENERIC GATHER-STRINGS ...) ; compiling (DEFMETHOD GATHER-STRINGS ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/optimize.lisp ; in: DEFMETHOD GATHER-STRINGS (SEQ) ; (SETF (SUBSEQ CL-PPCRE::COLLECTOR CL-PPCRE::OLD-COLLECTOR-LENGTH) ; (CL-PPCRE::STR CL-PPCRE::ELEMENT) ; CL-PPCRE::SKIP (CL-PPCRE::SKIP CL-PPCRE::ELEMENT)) ; --> PROGN SETF LET* ; ==> ; (REPLACE #:SEQUENCE #:NEW1 :START1 #:START :END1 NIL) ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a VECTOR, not a SIMPLE-BASE-STRING. ; The second argument is a SEQUENCE, not a SIMPLE-BASE-STRING. ; The result is a (VALUES VECTOR &OPTIONAL), not a (VALUES SIMPLE-BASE-STRING ; &REST T). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a VECTOR, not a (SIMPLE-ARRAY CHARACTER (*)). ; The second argument is a SEQUENCE, not a (SIMPLE-ARRAY CHARACTER (*)). ; The result is a (VALUES VECTOR &OPTIONAL), not a (VALUES ; (SIMPLE-ARRAY CHARACTER ; (*)) ; &REST T). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a VECTOR, not a (SIMPLE-ARRAY SINGLE-FLOAT (*)). ; The second argument is a SEQUENCE, not a (SIMPLE-ARRAY SINGLE-FLOAT (*)). ; The result is a (VALUES VECTOR &OPTIONAL), not a (VALUES ; (SIMPLE-ARRAY SINGLE-FLOAT ; (*)) ; &REST T). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a VECTOR, not a (SIMPLE-ARRAY DOUBLE-FLOAT (*)). ; The second argument is a SEQUENCE, not a (SIMPLE-ARRAY DOUBLE-FLOAT (*)). ; The result is a (VALUES VECTOR &OPTIONAL), not a (VALUES ; (SIMPLE-ARRAY DOUBLE-FLOAT ; (*)) ; &REST T). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a VECTOR, not a SIMPLE-BIT-VECTOR. ; The second argument is a SEQUENCE, not a SIMPLE-BIT-VECTOR. ; The result is a (VALUES VECTOR &OPTIONAL), not a (VALUES SIMPLE-BIT-VECTOR ; &REST T). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a VECTOR, not a (SIMPLE-ARRAY (UNSIGNED-BYTE 2) (*)). ; The second argument is a SEQUENCE, not a (SIMPLE-ARRAY (UNSIGNED-BYTE 2) (*)). ; The result is a (VALUES VECTOR &OPTIONAL), not a (VALUES ; (SIMPLE-ARRAY ; (UNSIGNED-BYTE 2) (*)) ; &REST T). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a VECTOR, not a (SIMPLE-ARRAY (UNSIGNED-BYTE 4) (*)). ; The second argument is a SEQUENCE, not a (SIMPLE-ARRAY (UNSIGNED-BYTE 4) (*)). ; The result is a (VALUES VECTOR &OPTIONAL), not a (VALUES ; (SIMPLE-ARRAY ; (UNSIGNED-BYTE 4) (*)) ; &REST T). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a VECTOR, not a (SIMPLE-ARRAY (UNSIGNED-BYTE 7) (*)). ; The second argument is a SEQUENCE, not a (SIMPLE-ARRAY (UNSIGNED-BYTE 7) (*)). ; The result is a (VALUES VECTOR &OPTIONAL), not a (VALUES ; (SIMPLE-ARRAY ; (UNSIGNED-BYTE 7) (*)) ; &REST T). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a VECTOR, not a (SIMPLE-ARRAY (UNSIGNED-BYTE 8) (*)). ; The second argument is a SEQUENCE, not a (SIMPLE-ARRAY (UNSIGNED-BYTE 8) (*)). ; The result is a (VALUES VECTOR &OPTIONAL), not a (VALUES ; (SIMPLE-ARRAY ; (UNSIGNED-BYTE 8) (*)) ; &REST T). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a VECTOR, not a (SIMPLE-ARRAY (UNSIGNED-BYTE 15) (*)). ; The second argument is a SEQUENCE, not a (SIMPLE-ARRAY (UNSIGNED-BYTE 15) ; (*)). ; The result is a (VALUES VECTOR &OPTIONAL), not a (VALUES ; (SIMPLE-ARRAY ; (UNSIGNED-BYTE 15) (*)) ; &REST T). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a VECTOR, not a (SIMPLE-ARRAY (UNSIGNED-BYTE 16) (*)). ; The second argument is a SEQUENCE, not a (SIMPLE-ARRAY (UNSIGNED-BYTE 16) ; (*)). ; The result is a (VALUES VECTOR &OPTIONAL), not a (VALUES ; (SIMPLE-ARRAY ; (UNSIGNED-BYTE 16) (*)) ; &REST T). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a VECTOR, not a (SIMPLE-ARRAY (UNSIGNED-BYTE 31) (*)). ; The second argument is a SEQUENCE, not a (SIMPLE-ARRAY (UNSIGNED-BYTE 31) ; (*)). ; The result is a (VALUES VECTOR &OPTIONAL), not a (VALUES ; (SIMPLE-ARRAY ; (UNSIGNED-BYTE 31) (*)) ; &REST T). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a VECTOR, not a (SIMPLE-ARRAY (UNSIGNED-BYTE 32) (*)). ; The second argument is a SEQUENCE, not a (SIMPLE-ARRAY (UNSIGNED-BYTE 32) ; (*)). ; The result is a (VALUES VECTOR &OPTIONAL), not a (VALUES ; (SIMPLE-ARRAY ; (UNSIGNED-BYTE 32) (*)) ; &REST T). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a VECTOR, not a (SIMPLE-ARRAY (UNSIGNED-BYTE 62) (*)). ; The second argument is a SEQUENCE, not a (SIMPLE-ARRAY (UNSIGNED-BYTE 62) ; (*)). ; The result is a (VALUES VECTOR &OPTIONAL), not a (VALUES ; (SIMPLE-ARRAY ; (UNSIGNED-BYTE 62) (*)) ; &REST T). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a VECTOR, not a (SIMPLE-ARRAY (UNSIGNED-BYTE 63) (*)). ; The second argument is a SEQUENCE, not a (SIMPLE-ARRAY (UNSIGNED-BYTE 63) ; (*)). ; The result is a (VALUES VECTOR &OPTIONAL), not a (VALUES ; (SIMPLE-ARRAY ; (UNSIGNED-BYTE 63) (*)) ; &REST T). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a VECTOR, not a (SIMPLE-ARRAY (UNSIGNED-BYTE 64) (*)). ; The second argument is a SEQUENCE, not a (SIMPLE-ARRAY (UNSIGNED-BYTE 64) ; (*)). ; The result is a (VALUES VECTOR &OPTIONAL), not a (VALUES ; (SIMPLE-ARRAY ; (UNSIGNED-BYTE 64) (*)) ; &REST T). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a VECTOR, not a (SIMPLE-ARRAY (SIGNED-BYTE 8) (*)). ; The second argument is a SEQUENCE, not a (SIMPLE-ARRAY (SIGNED-BYTE 8) (*)). ; The result is a (VALUES VECTOR &OPTIONAL), not a (VALUES ; (SIMPLE-ARRAY ; (SIGNED-BYTE 8) (*)) ; &REST T). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a VECTOR, not a (SIMPLE-ARRAY (SIGNED-BYTE 16) (*)). ; The second argument is a SEQUENCE, not a (SIMPLE-ARRAY (SIGNED-BYTE 16) (*)). ; The result is a (VALUES VECTOR &OPTIONAL), not a (VALUES ; (SIMPLE-ARRAY ; (SIGNED-BYTE 16) (*)) ; &REST T). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a VECTOR, not a (SIMPLE-ARRAY (SIGNED-BYTE 32) (*)). ; The second argument is a SEQUENCE, not a (SIMPLE-ARRAY (SIGNED-BYTE 32) (*)). ; The result is a (VALUES VECTOR &OPTIONAL), not a (VALUES ; (SIMPLE-ARRAY ; (SIGNED-BYTE 32) (*)) ; &REST T). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a VECTOR, not a (SIMPLE-ARRAY FIXNUM (*)). ; The second argument is a SEQUENCE, not a (SIMPLE-ARRAY FIXNUM (*)). ; The result is a (VALUES VECTOR &OPTIONAL), not a (VALUES ; (SIMPLE-ARRAY FIXNUM (*)) ; &REST T). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a VECTOR, not a (SIMPLE-ARRAY (SIGNED-BYTE 64) (*)). ; The second argument is a SEQUENCE, not a (SIMPLE-ARRAY (SIGNED-BYTE 64) (*)). ; The result is a (VALUES VECTOR &OPTIONAL), not a (VALUES ; (SIMPLE-ARRAY ; (SIGNED-BYTE 64) (*)) ; &REST T). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a VECTOR, not a (SIMPLE-ARRAY (COMPLEX SINGLE-FLOAT) ; (*)). ; The second argument is a SEQUENCE, not a (SIMPLE-ARRAY (COMPLEX SINGLE-FLOAT) ; (*)). ; The result is a (VALUES VECTOR &OPTIONAL), not a (VALUES ; (SIMPLE-ARRAY ; (COMPLEX SINGLE-FLOAT) ; (*)) ; &REST T). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a VECTOR, not a (SIMPLE-ARRAY (COMPLEX DOUBLE-FLOAT) ; (*)). ; The second argument is a SEQUENCE, not a (SIMPLE-ARRAY (COMPLEX DOUBLE-FLOAT) ; (*)). ; The result is a (VALUES VECTOR &OPTIONAL), not a (VALUES ; (SIMPLE-ARRAY ; (COMPLEX DOUBLE-FLOAT) ; (*)) ; &REST T). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a VECTOR, not a SIMPLE-VECTOR. ; The second argument is a SEQUENCE, not a SIMPLE-VECTOR. ; The result is a (VALUES VECTOR &OPTIONAL), not a (VALUES SIMPLE-VECTOR &REST ; T). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a VECTOR, not a SIMPLE-BASE-STRING. ; The second argument is a SEQUENCE, not a (SIMPLE-ARRAY CHARACTER (*)). ; The result is a (VALUES VECTOR &OPTIONAL), not a (VALUES SIMPLE-BASE-STRING ; &REST T). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a VECTOR, not a (SIMPLE-ARRAY CHARACTER (*)). ; The second argument is a SEQUENCE, not a SIMPLE-BASE-STRING. ; The result is a (VALUES VECTOR &OPTIONAL), not a (VALUES ; (SIMPLE-ARRAY CHARACTER ; (*)) ; &REST T). ; (INCF CL-PPCRE::COLLECTOR-LENGTH (CL-PPCRE::LEN CL-PPCRE::ELEMENT)) ; --> SETQ THE ; ==> ; (+ (CL-PPCRE::LEN CL-PPCRE::ELEMENT) CL-PPCRE::COLLECTOR-LENGTH) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a NUMBER, not a FIXNUM. ; unable to do inline (signed-byte 64) arithmetic (cost 5) because: ; The first argument is a NUMBER, not a (SIGNED-BYTE 64). ; etc. ; compiling (DEFMETHOD GATHER-STRINGS ...) ; compiling (DEFMETHOD GATHER-STRINGS ...) ; compiling (DEFMETHOD GATHER-STRINGS ...) ; compiling (DEFGENERIC START-ANCHORED-P ...) ; compiling (DEFMETHOD START-ANCHORED-P ...) ; compiling (DEFMETHOD START-ANCHORED-P ...) ; compiling (DEFMETHOD START-ANCHORED-P ...) ; compiling (DEFMETHOD START-ANCHORED-P ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/optimize.lisp ; in: DEFMETHOD START-ANCHORED-P (REPETITION) ; (PLUSP (CL-PPCRE::MINIMUM CL-PPCRE::REPETITION)) ; ==> ; (> (CL-PPCRE::MINIMUM CL-PPCRE::REPETITION) 0) ; ; note: unable to ; open-code FLOAT to RATIONAL comparison ; due to type uncertainty: ; The first argument is a REAL, not a FLOAT. ; ; note: forced to do GENERIC-> (cost 10) ; unable to do inline fixnum comparison (cost 3) because: ; The first argument is a REAL, not a FIXNUM. ; unable to do inline fixnum comparison (cost 4) because: ; The first argument is a REAL, not a FIXNUM. ; etc. ; compiling (DEFMETHOD START-ANCHORED-P ...) ; compiling (DEFMETHOD START-ANCHORED-P ...) ; compiling (DEFMETHOD START-ANCHORED-P ...) ; compiling (DEFMETHOD START-ANCHORED-P ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/optimize.lisp ; in: DEFMETHOD START-ANCHORED-P (REGEX) ; (ZEROP (CL-PPCRE::LEN CL-PPCRE::REGEX)) ; ==> ; (= (CL-PPCRE::LEN CL-PPCRE::REGEX) 0) ; ; note: unable to ; open-code FLOAT to RATIONAL comparison ; due to type uncertainty: ; The first argument is a NUMBER, not a FLOAT. ; ; note: unable to open code because: The operands might not be the same type. ; compiling (DEFGENERIC END-STRING-AUX ...) ; compiling (DEFMETHOD END-STRING-AUX ...) ; compiling (DEFMETHOD END-STRING-AUX ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/optimize.lisp ; in: DEFMETHOD END-STRING-AUX (SEQ) ; (ZEROP (CL-PPCRE::LEN CL-PPCRE::ELEMENT-END)) ; --> = IF ; ==> ; (= (CL-PPCRE::LEN CL-PPCRE::ELEMENT-END) 0) ; ; note: unable to ; open-code FLOAT to RATIONAL comparison ; due to type uncertainty: ; The first argument is a NUMBER, not a FLOAT. ; ; note: unable to open code because: The operands might not be the same type. ; (CHAR CL-PPCRE::STR CL-PPCRE::I) ; --> AREF ; ==> ; (SB-KERNEL:HAIRY-DATA-VECTOR-REF ARRAY SB-INT:INDEX) ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a STRING, not a SIMPLE-STRING. ; ; note: unable to ; avoid runtime dispatch on array element type ; due to type uncertainty: ; The first argument is a STRING, not a SIMPLE-ARRAY. ; compiling (DEFMETHOD END-STRING-AUX ...) ; compiling (DEFMETHOD END-STRING-AUX ...) ; compiling (DEFMETHOD END-STRING-AUX ...) ; compiling (DEFUN END-STRING ...) ; compiling (DEFGENERIC COMPUTE-MIN-REST ...) ; compiling (DEFMETHOD COMPUTE-MIN-REST ...) ; compiling (DEFMETHOD COMPUTE-MIN-REST ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/optimize.lisp ; in: DEFMETHOD COMPUTE-MIN-REST (ALTERNATION T) ; (LOOP CL-PPCRE::FOR CL-PPCRE::CHOICE CL-PPCRE::IN (CL-PPCRE::CHOICES ; CL-PPCRE::ALTERNATION) ; CL-PPCRE::MINIMIZE (CL-PPCRE::COMPUTE-MIN-REST CL-PPCRE::CHOICE ; CL-PPCRE::CURRENT-MIN-REST)) ; --> BLOCK LET SB-LOOP::WITH-MINIMAX-VALUE LET SB-LOOP::LOOP-BODY TAGBODY ; --> SB-LOOP::LOOP-ACCUMULATE-MINIMAX-VALUE PROGN WHEN IF OR LET IF OR THE < ; --> IF ; ==> ; (< #:LOOP-MAXMIN-TEMP-363 #:LOOP-MAXMIN-362) ; ; note: unable to ; open-code FLOAT to RATIONAL comparison ; due to type uncertainty: ; The first argument is a REAL, not a FLOAT. ; The second argument is a REAL, not a RATIONAL. ; ; note: forced to do GENERIC-< (cost 10) ; unable to do inline float comparison (cost 3) because: ; The first argument is a REAL, not a SINGLE-FLOAT. ; The second argument is a REAL, not a SINGLE-FLOAT. ; unable to do inline float comparison (cost 3) because: ; The first argument is a REAL, not a DOUBLE-FLOAT. ; The second argument is a REAL, not a DOUBLE-FLOAT. ; etc. ; compiling (DEFMETHOD COMPUTE-MIN-REST ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/optimize.lisp ; in: DEFMETHOD COMPUTE-MIN-REST (BRANCH T) ; (MIN ; (CL-PPCRE::COMPUTE-MIN-REST (CL-PPCRE::THEN-REGEX CL-PPCRE::BRANCH) ; CL-PPCRE::CURRENT-MIN-REST) ; (CL-PPCRE::COMPUTE-MIN-REST (CL-PPCRE::ELSE-REGEX CL-PPCRE::BRANCH) ; CL-PPCRE::CURRENT-MIN-REST)) ; --> LET LET IF <= OR LET < IF ; ==> ; (< SB-C::X SB-C::Y) ; ; note: unable to ; open-code FLOAT to RATIONAL comparison ; due to type uncertainty: ; The first argument is a REAL, not a FLOAT. ; The second argument is a REAL, not a RATIONAL. ; --> LET LET IF <= OR LET IF OR THE = IF ; ==> ; (= SB-C::X SB-C::Y) ; ; note: unable to ; open-code FLOAT to RATIONAL comparison ; due to type uncertainty: ; The first argument is a REAL, not a FLOAT. ; The second argument is a REAL, not a RATIONAL. ; ; note: unable to open code because: The operands might not be the same type. ; --> LET LET IF <= OR LET < IF ; ==> ; (< SB-C::X SB-C::Y) ; ; note: forced to do GENERIC-< (cost 10) ; unable to do inline float comparison (cost 3) because: ; The first argument is a REAL, not a SINGLE-FLOAT. ; The second argument is a REAL, not a SINGLE-FLOAT. ; unable to do inline float comparison (cost 3) because: ; The first argument is a REAL, not a DOUBLE-FLOAT. ; The second argument is a REAL, not a DOUBLE-FLOAT. ; etc. ; --> LET LET IF <= OR LET IF OR THE = IF ; ==> ; (= SB-C::X SB-C::Y) ; ; note: forced to do GENERIC-= (cost 10) ; unable to do inline float comparison (cost 3) because: ; The first argument is a REAL, not a DOUBLE-FLOAT. ; The second argument is a REAL, not a DOUBLE-FLOAT. ; unable to do inline float comparison (cost 3) because: ; The first argument is a REAL, not a SINGLE-FLOAT. ; The second argument is a REAL, not a SINGLE-FLOAT. ; compiling (DEFMETHOD COMPUTE-MIN-REST ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/optimize.lisp ; in: DEFMETHOD COMPUTE-MIN-REST (STR T) ; (+ CL-PPCRE::CURRENT-MIN-REST (CL-PPCRE::LEN CL-PPCRE::STR)) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline float arithmetic (cost 2) because: ; The first argument is a NUMBER, not a DOUBLE-FLOAT. ; The second argument is a NUMBER, not a DOUBLE-FLOAT. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES DOUBLE-FLOAT ; &REST T). ; unable to do inline float arithmetic (cost 2) because: ; The first argument is a NUMBER, not a SINGLE-FLOAT. ; The second argument is a NUMBER, not a SINGLE-FLOAT. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES SINGLE-FLOAT ; &REST T). ; etc. ; compiling (DEFMETHOD COMPUTE-MIN-REST ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/optimize.lisp ; in: DEFMETHOD COMPUTE-MIN-REST (FILTER T) ; (+ CL-PPCRE::CURRENT-MIN-REST (OR (CL-PPCRE::LEN CL-PPCRE::FILTER) 0)) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline float arithmetic (cost 2) because: ; The first argument is a NUMBER, not a DOUBLE-FLOAT. ; The second argument is a NUMBER, not a DOUBLE-FLOAT. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES DOUBLE-FLOAT ; &REST T). ; unable to do inline float arithmetic (cost 2) because: ; The first argument is a NUMBER, not a SINGLE-FLOAT. ; The second argument is a NUMBER, not a SINGLE-FLOAT. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES SINGLE-FLOAT ; &REST T). ; etc. ; compiling (DEFMETHOD COMPUTE-MIN-REST ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/optimize.lisp ; in: DEFMETHOD COMPUTE-MIN-REST (REPETITION T) ; (* (CL-PPCRE::MINIMUM CL-PPCRE::REPETITION) ; (CL-PPCRE::MIN-LEN CL-PPCRE::REPETITION)) ; ; note: unable to ; convert x*2^k to shift ; due to type uncertainty: ; The first argument is a NUMBER, not a INTEGER. ; The second argument is a NUMBER, not a INTEGER. ; ; note: forced to do GENERIC-* (cost 30) ; unable to do inline float arithmetic (cost 4) because: ; The first argument is a NUMBER, not a (COMPLEX SINGLE-FLOAT). ; The second argument is a NUMBER, not a SINGLE-FLOAT. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES ; (COMPLEX SINGLE-FLOAT) ; &REST T). ; unable to do inline float arithmetic (cost 4) because: ; The first argument is a NUMBER, not a SINGLE-FLOAT. ; The second argument is a NUMBER, not a SINGLE-FLOAT. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES SINGLE-FLOAT ; &REST T). ; etc. ; (+ CL-PPCRE::CURRENT-MIN-REST ; (* (CL-PPCRE::MINIMUM CL-PPCRE::REPETITION) ; (CL-PPCRE::MIN-LEN CL-PPCRE::REPETITION))) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline float arithmetic (cost 2) because: ; The first argument is a NUMBER, not a DOUBLE-FLOAT. ; The second argument is a NUMBER, not a DOUBLE-FLOAT. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES DOUBLE-FLOAT ; &REST T). ; unable to do inline float arithmetic (cost 2) because: ; The first argument is a NUMBER, not a SINGLE-FLOAT. ; The second argument is a NUMBER, not a SINGLE-FLOAT. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES SINGLE-FLOAT ; &REST T). ; etc. ; compiling (DEFMETHOD COMPUTE-MIN-REST ...) ; compiling (DEFMETHOD COMPUTE-MIN-REST ...) ; compiling (DEFMETHOD COMPUTE-MIN-REST ...) ; compiling (DEFMETHOD COMPUTE-MIN-REST ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/optimize.lisp ; in: DEFMETHOD COMPUTE-MIN-REST (LOOKBEHIND T) ; (+ CL-PPCRE::CURRENT-MIN-REST (CL-PPCRE::LEN CL-PPCRE::LOOKBEHIND)) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline float arithmetic (cost 2) because: ; The first argument is a NUMBER, not a DOUBLE-FLOAT. ; The second argument is a NUMBER, not a DOUBLE-FLOAT. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES DOUBLE-FLOAT ; &REST T). ; unable to do inline float arithmetic (cost 2) because: ; The first argument is a NUMBER, not a SINGLE-FLOAT. ; The second argument is a NUMBER, not a SINGLE-FLOAT. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES SINGLE-FLOAT ; &REST T). ; etc. ; compiling (DEFMETHOD COMPUTE-MIN-REST ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/optimize.lisp ; in: DEFMETHOD COMPUTE-MIN-REST (REGEX T) ; (1+ CL-PPCRE::CURRENT-MIN-REST) ; ==> ; (+ CL-PPCRE::CURRENT-MIN-REST 1) ; ; note: unable to ; associate +/+ of constants ; due to type uncertainty: ; The first argument is a NUMBER, not a RATIONAL. ; ; note: unable to ; associate +/- of constants ; due to type uncertainty: ; The first argument is a NUMBER, not a RATIONAL. ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline fixnum arithmetic (cost 1) because: ; The first argument is a NUMBER, not a FIXNUM. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a NUMBER, not a FIXNUM. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES FIXNUM &REST T). ; etc. ; /wrkdirs/textproc/cl-ppcre-sbcl/cl-ppcre-2.0.3/optimize-TMP.fasl written ; compilation finished in 0:00:00.146 ; compiling file "/usr/local/lib/common-lisp/cl-ppcre/closures.lisp" (written 25 JUL 2016 01:40:59 AM): ; compiling (IN-PACKAGE :CL-PPCRE) ; compiling (DECLAIM (INLINE *STRING*= ...)) ; compiling (DEFUN *STRING*= ...) ; compiling (DEFUN *STRING*-EQUAL ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/closures.lisp ; in: DEFUN *STRING*-EQUAL ; (CHAR-EQUAL (SCHAR CL-PPCRE::*STRING* CL-PPCRE::STRING1-IDX) ; (SCHAR CL-PPCRE::STRING2 CL-PPCRE::STRING2-IDX)) ; ==> ; (SB-INT:TWO-ARG-CHAR-EQUAL (SCHAR CL-PPCRE::*STRING* CL-PPCRE::STRING1-IDX) ; (SCHAR CL-PPCRE::STRING2 CL-PPCRE::STRING2-IDX)) ; ; note: unable to ; open code ; due to type uncertainty: ; The first argument is a CHARACTER, not a BASE-CHAR. ; The second argument is a CHARACTER, not a BASE-CHAR. ; compiling (DEFGENERIC CREATE-MATCHER-AUX ...) ; compiling (DEFMETHOD CREATE-MATCHER-AUX ...) ; compiling (DEFMETHOD CREATE-MATCHER-AUX ...) ; compiling (DEFMETHOD CREATE-MATCHER-AUX ...) ; compiling (DEFMETHOD CREATE-MATCHER-AUX ...) ; compiling (DEFMETHOD CREATE-MATCHER-AUX ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/closures.lisp ; in: DEFMETHOD CREATE-MATCHER-AUX (LOOKBEHIND T) ; (FUNCALL CL-PPCRE::TEST-MATCHER (- CL-PPCRE::START-POS CL-PPCRE::LEN)) ; ==> ; (SB-C::%FUNCALL (SB-KERNEL:%COERCE-CALLABLE-TO-FUN CL-PPCRE::TEST-MATCHER) ; (- CL-PPCRE::START-POS CL-PPCRE::LEN)) ; ; note: doing signed word to integer coercion (cost 20) ; ; note: doing signed word to integer coercion (cost 20) ; compiling (DEFMACRO INSERT-CHAR-CLASS-TESTER ...) ; compiling (DEFMETHOD CREATE-MATCHER-AUX ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/closures.lisp ; in: DEFMETHOD CREATE-MATCHER-AUX (CHAR-CLASS T) ; (CL-PPCRE::INSERT-CHAR-CLASS-TESTER (CL-PPCRE::CHAR-CLASS ; (SCHAR CL-PPCRE::*STRING* ; CL-PPCRE::START-POS)) ; (LAMBDA (CL-PPCRE::START-POS) ; (DECLARE (FIXNUM CL-PPCRE::START-POS)) ; (AND (< CL-PPCRE::START-POS CL-PPCRE::*END-POS*) ; (CL-PPCRE::CHAR-CLASS-TEST) ; (FUNCALL CL-PPCRE::NEXT-FN (1+ CL-PPCRE::START-POS))))) ; --> LET LET LAMBDA FUNCTION AND IF AND IF FUNCALL SB-C::%FUNCALL THE ; ==> ; (SB-KERNEL:%COERCE-CALLABLE-TO-FUN #:TEST-FUNCTION198) ; ; note: unable to ; optimize away possible call to FDEFINITION at runtime ; because: ; not known to be a function ; compiling (DEFMETHOD CREATE-MATCHER-AUX ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/closures.lisp ; in: DEFMETHOD CREATE-MATCHER-AUX (STR T) ; (CL-PPCRE::*STRING*-EQUAL CL-PPCRE::STR CL-PPCRE::START-POS ; CL-PPCRE::NEXT-POS 0 CL-PPCRE::LEN) ; --> BLOCK LOOP BLOCK LET LET SB-LOOP::LOOP-BODY TAGBODY UNLESS IF CHAR-EQUAL ; ==> ; (SB-INT:TWO-ARG-CHAR-EQUAL (SCHAR CL-PPCRE::*STRING* CL-PPCRE::STRING1-IDX) ; (SCHAR CL-PPCRE::STRING2 CL-PPCRE::STRING2-IDX)) ; ; note: unable to ; open code ; due to type uncertainty: ; The first argument is a CHARACTER, not a BASE-CHAR. ; The second argument is a CHARACTER, not a BASE-CHAR. ; (CHAR-EQUAL (SCHAR CL-PPCRE::*STRING* CL-PPCRE::START-POS) CL-PPCRE::CHR) ; ==> ; (SB-INT:TWO-ARG-CHAR-EQUAL (SCHAR CL-PPCRE::*STRING* CL-PPCRE::START-POS) ; CL-PPCRE::CHR) ; ; note: unable to ; open code ; due to type uncertainty: ; The first argument is a CHARACTER, not a BASE-CHAR. ; The second argument is a CHARACTER, not a BASE-CHAR. ; (LENGTH CL-PPCRE::END-STRING) ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a (SIMPLE-ARRAY * (*)). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a VECTOR. ; (CL-PPCRE::*STRING*-EQUAL CL-PPCRE::END-STRING CL-PPCRE::START-POS ; CL-PPCRE::TEST-END-POS 0 CL-PPCRE::END-STRING-LEN) ; --> BLOCK LOOP BLOCK LET LET SB-LOOP::LOOP-BODY TAGBODY UNLESS IF CHAR-EQUAL ; ==> ; (SB-INT:TWO-ARG-CHAR-EQUAL (SCHAR CL-PPCRE::*STRING* CL-PPCRE::STRING1-IDX) ; (SCHAR CL-PPCRE::STRING2 CL-PPCRE::STRING2-IDX)) ; ; note: unable to ; open code ; due to type uncertainty: ; The first argument is a CHARACTER, not a BASE-CHAR. ; The second argument is a CHARACTER, not a BASE-CHAR. ; (FUNCALL CL-PPCRE::NEXT-FN (+ CL-PPCRE::START-POS CL-PPCRE::LEN)) ; ==> ; (SB-C::%FUNCALL (SB-KERNEL:%COERCE-CALLABLE-TO-FUN CL-PPCRE::NEXT-FN) ; (+ CL-PPCRE::START-POS CL-PPCRE::LEN)) ; ; note: doing signed word to integer coercion (cost 20) ; ; note: doing signed word to integer coercion (cost 20) ; ; note: doing signed word to integer coercion (cost 20) ; compiling (DECLAIM (INLINE WORD-BOUNDARY-P)) ; compiling (DEFUN WORD-BOUNDARY-P ...) ; compiling (DEFMETHOD CREATE-MATCHER-AUX ...) ; compiling (DEFMETHOD CREATE-MATCHER-AUX ...) ; compiling (DEFMETHOD CREATE-MATCHER-AUX ...) ; compiling (DEFMETHOD CREATE-MATCHER-AUX ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/closures.lisp ; in: DEFMETHOD CREATE-MATCHER-AUX (BACK-REFERENCE T) ; (CL-PPCRE::*STRING*-EQUAL CL-PPCRE::*STRING* CL-PPCRE::START-POS ; CL-PPCRE::NEXT-POS CL-PPCRE::REG-START CL-PPCRE::REG-END) ; --> BLOCK LOOP BLOCK LET LET SB-LOOP::LOOP-BODY TAGBODY UNLESS IF CHAR-EQUAL ; ==> ; (SB-INT:TWO-ARG-CHAR-EQUAL (SCHAR CL-PPCRE::*STRING* CL-PPCRE::STRING1-IDX) ; (SCHAR CL-PPCRE::STRING2 CL-PPCRE::STRING2-IDX)) ; ; note: unable to ; open code ; due to type uncertainty: ; The first argument is a CHARACTER, not a BASE-CHAR. ; The second argument is a CHARACTER, not a BASE-CHAR. ; compiling (DEFMETHOD CREATE-MATCHER-AUX ...) ; compiling (DEFMETHOD CREATE-MATCHER-AUX ...) ; compiling (DEFMETHOD CREATE-MATCHER-AUX ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/closures.lisp ; in: DEFMETHOD CREATE-MATCHER-AUX (FILTER T) ; (FUNCALL CL-PPCRE::FN CL-PPCRE::START-POS) ; --> SB-C::%FUNCALL THE ; ==> ; (SB-KERNEL:%COERCE-CALLABLE-TO-FUN CL-PPCRE::FN) ; ; note: unable to ; optimize away possible call to FDEFINITION at runtime ; because: ; not known to be a function ; (FUNCALL CL-PPCRE::NEXT-FN CL-PPCRE::NEXT-POS) ; --> SB-C::%FUNCALL THE ; ==> ; (SB-KERNEL:%COERCE-CALLABLE-TO-FUN CL-PPCRE::NEXT-FN) ; ; note: unable to ; optimize away possible call to FDEFINITION at runtime ; because: ; not known to be a function ; compiling (DEFMETHOD CREATE-MATCHER-AUX ...) ; /wrkdirs/textproc/cl-ppcre-sbcl/cl-ppcre-2.0.3/closures-TMP.fasl written ; compilation finished in 0:00:00.204 ; compiling file "/usr/local/lib/common-lisp/cl-ppcre/repetition-closures.lisp" (written 25 JUL 2016 01:40:59 AM): ; compiling (IN-PACKAGE :CL-PPCRE) ; compiling (DEFMACRO INCF-AFTER ...) ; compiling (DEFMACRO GREEDY-CONSTANT-LENGTH-CLOSURE ...) ; compiling (DEFUN CREATE-GREEDY-EVERYTHING-MATCHER ...) ; compiling (DEFGENERIC CREATE-GREEDY-CONSTANT-LENGTH-MATCHER ...) ; compiling (DEFMETHOD CREATE-GREEDY-CONSTANT-LENGTH-MATCHER ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/repetition-closures.lisp ; in: DEFMETHOD CREATE-GREEDY-CONSTANT-LENGTH-MATCHER (REPETITION T) ; (CL-PPCRE::INSERT-CHAR-CLASS-TESTER (CL-PPCRE::REGEX ; (SCHAR CL-PPCRE::*STRING* ; CL-PPCRE::CURR-POS)) ; (CL-PPCRE::GREEDY-CONSTANT-LENGTH-CLOSURE (CL-PPCRE::CHAR-CLASS-TEST))) ; --> LET LET CL-PPCRE::GREEDY-CONSTANT-LENGTH-CLOSURE IF LAMBDA FUNCTION LET ; --> BLOCK TAGBODY WHEN IF FUNCALL SB-C::%FUNCALL THE ; ==> ; (SB-KERNEL:%COERCE-CALLABLE-TO-FUN #:TEST-FUNCTION147) ; ; note: unable to ; optimize away possible call to FDEFINITION at runtime ; because: ; not known to be a function ; ; note: unable to ; optimize away possible call to FDEFINITION at runtime ; because: ; not known to be a function ; (CL-PPCRE::*STRING*-EQUAL CL-PPCRE::STR CL-PPCRE::CURR-POS ; (+ CL-PPCRE::CURR-POS CL-PPCRE::LEN) 0 ; CL-PPCRE::LEN) ; --> BLOCK LOOP BLOCK LET LET SB-LOOP::LOOP-BODY TAGBODY UNLESS IF CHAR-EQUAL ; ==> ; (SB-INT:TWO-ARG-CHAR-EQUAL (SCHAR CL-PPCRE::*STRING* CL-PPCRE::STRING1-IDX) ; (SCHAR CL-PPCRE::STRING2 CL-PPCRE::STRING2-IDX)) ; ; note: unable to ; open code ; due to type uncertainty: ; The first argument is a CHARACTER, not a BASE-CHAR. ; The second argument is a CHARACTER, not a BASE-CHAR. ; (CHAR-EQUAL CL-PPCRE::CHR (SCHAR CL-PPCRE::*STRING* CL-PPCRE::CURR-POS)) ; ==> ; (SB-INT:TWO-ARG-CHAR-EQUAL CL-PPCRE::CHR ; (SCHAR CL-PPCRE::*STRING* CL-PPCRE::CURR-POS)) ; ; note: unable to ; open code ; due to type uncertainty: ; The first argument is a CHARACTER, not a BASE-CHAR. ; The second argument is a CHARACTER, not a BASE-CHAR. ; ; note: unable to ; open code ; due to type uncertainty: ; The first argument is a CHARACTER, not a BASE-CHAR. ; The second argument is a CHARACTER, not a BASE-CHAR. ; (CL-PPCRE::*STRING*-EQUAL CL-PPCRE::STR CL-PPCRE::CURR-POS ; (+ CL-PPCRE::CURR-POS CL-PPCRE::LEN) 0 ; CL-PPCRE::LEN) ; --> BLOCK LOOP BLOCK LET LET SB-LOOP::LOOP-BODY TAGBODY UNLESS IF CHAR-EQUAL ; ==> ; (SB-INT:TWO-ARG-CHAR-EQUAL (SCHAR CL-PPCRE::*STRING* CL-PPCRE::STRING1-IDX) ; (SCHAR CL-PPCRE::STRING2 CL-PPCRE::STRING2-IDX)) ; ; note: unable to ; open code ; due to type uncertainty: ; The first argument is a CHARACTER, not a BASE-CHAR. ; The second argument is a CHARACTER, not a BASE-CHAR. ; (CL-PPCRE::GREEDY-CONSTANT-LENGTH-CLOSURE ; (CL-PPCRE::*STRING*= CL-PPCRE::STR CL-PPCRE::CURR-POS ; (+ CL-PPCRE::CURR-POS CL-PPCRE::LEN) 0 CL-PPCRE::LEN)) ; --> IF LAMBDA FUNCTION LET MIN LET 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: forced to do GENERIC-- (cost 10) ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -9223372036854775807 9223372036854775807), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline (signed-byte 64) arithmetic (cost 5) because: ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES (SIGNED-BYTE 64) &REST T). ; etc. ; --> IF LAMBDA FUNCTION LET MIN LET 1+ ; ==> ; (+ (- CL-PPCRE::*END-POS* CL-PPCRE::LEN CL-PPCRE::MIN-REST) 1) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline fixnum arithmetic (cost 1) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; etc. ; --> IF LAMBDA FUNCTION LET MIN LET LET IF <= IF ; ==> ; (> SB-C::X SB-C::Y) ; ; note: forced to do GENERIC-> (cost 10) ; unable to do inline fixnum comparison (cost 4) because: ; The first argument is a (INTEGER -13835058055282163709 ; 13835058055282163712), not a FIXNUM. ; The second argument is a (INTEGER -9223372036854775808 ; 9223372036854775806), not a FIXNUM. ; (CL-PPCRE::GREEDY-CONSTANT-LENGTH-CLOSURE ; (CL-PPCRE::*STRING*-EQUAL CL-PPCRE::STR CL-PPCRE::CURR-POS ; (+ CL-PPCRE::CURR-POS CL-PPCRE::LEN) 0 ; CL-PPCRE::LEN)) ; --> IF LAMBDA FUNCTION LET 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: forced to do GENERIC-- (cost 10) ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -9223372036854775807 9223372036854775807), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline (signed-byte 64) arithmetic (cost 5) because: ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES (SIGNED-BYTE 64) &REST T). ; etc. ; --> IF LAMBDA FUNCTION LET 1+ ; ==> ; (+ (- CL-PPCRE::*END-POS* CL-PPCRE::LEN CL-PPCRE::MIN-REST) 1) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline fixnum arithmetic (cost 1) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; etc. ; (CL-PPCRE::GREEDY-CONSTANT-LENGTH-CLOSURE ; (CHAR-EQUAL CL-PPCRE::CHR (SCHAR CL-PPCRE::*STRING* CL-PPCRE::CURR-POS))) ; --> IF LAMBDA FUNCTION LET MIN LET 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: forced to do GENERIC-- (cost 10) ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -9223372036854775807 9223372036854775807), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline (signed-byte 64) arithmetic (cost 5) because: ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES (SIGNED-BYTE 64) &REST T). ; etc. ; --> IF LAMBDA FUNCTION LET MIN LET 1+ ; ==> ; (+ (- CL-PPCRE::*END-POS* CL-PPCRE::LEN CL-PPCRE::MIN-REST) 1) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline fixnum arithmetic (cost 1) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; etc. ; --> IF LAMBDA FUNCTION LET MIN LET LET IF <= IF ; ==> ; (> SB-C::X SB-C::Y) ; ; note: forced to do GENERIC-> (cost 10) ; unable to do inline fixnum comparison (cost 4) because: ; The first argument is a (INTEGER -13835058055282163709 ; 13835058055282163712), not a FIXNUM. ; The second argument is a (INTEGER -9223372036854775808 ; 9223372036854775806), not a FIXNUM. ; --> IF LAMBDA FUNCTION LET 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: forced to do GENERIC-- (cost 10) ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -9223372036854775807 9223372036854775807), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline (signed-byte 64) arithmetic (cost 5) because: ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES (SIGNED-BYTE 64) &REST T). ; etc. ; --> IF LAMBDA FUNCTION LET 1+ ; ==> ; (+ (- CL-PPCRE::*END-POS* CL-PPCRE::LEN CL-PPCRE::MIN-REST) 1) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline fixnum arithmetic (cost 1) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; etc. ; (CL-PPCRE::GREEDY-CONSTANT-LENGTH-CLOSURE ; (CHAR= CL-PPCRE::CHR (SCHAR CL-PPCRE::*STRING* CL-PPCRE::CURR-POS))) ; --> IF LAMBDA FUNCTION LET MIN LET 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: forced to do GENERIC-- (cost 10) ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -9223372036854775807 9223372036854775807), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline (signed-byte 64) arithmetic (cost 5) because: ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES (SIGNED-BYTE 64) &REST T). ; etc. ; --> IF LAMBDA FUNCTION LET MIN LET 1+ ; ==> ; (+ (- CL-PPCRE::*END-POS* CL-PPCRE::LEN CL-PPCRE::MIN-REST) 1) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline fixnum arithmetic (cost 1) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; etc. ; --> IF LAMBDA FUNCTION LET MIN LET LET IF <= IF ; ==> ; (> SB-C::X SB-C::Y) ; ; note: forced to do GENERIC-> (cost 10) ; unable to do inline fixnum comparison (cost 4) because: ; The first argument is a (INTEGER -13835058055282163709 ; 13835058055282163712), not a FIXNUM. ; The second argument is a (INTEGER -9223372036854775808 ; 9223372036854775806), not a FIXNUM. ; --> IF LAMBDA FUNCTION LET 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: forced to do GENERIC-- (cost 10) ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -9223372036854775807 9223372036854775807), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline (signed-byte 64) arithmetic (cost 5) because: ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES (SIGNED-BYTE 64) &REST T). ; etc. ; --> IF LAMBDA FUNCTION LET 1+ ; ==> ; (+ (- CL-PPCRE::*END-POS* CL-PPCRE::LEN CL-PPCRE::MIN-REST) 1) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline fixnum arithmetic (cost 1) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; etc. ; (CL-PPCRE::GREEDY-CONSTANT-LENGTH-CLOSURE ; (CL-PPCRE::*STRING*-EQUAL CL-PPCRE::STR CL-PPCRE::CURR-POS ; (+ CL-PPCRE::CURR-POS CL-PPCRE::LEN) 0 ; CL-PPCRE::LEN)) ; --> IF LAMBDA FUNCTION LET MIN LET 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: forced to do GENERIC-- (cost 10) ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -9223372036854775807 9223372036854775807), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline (signed-byte 64) arithmetic (cost 5) because: ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES (SIGNED-BYTE 64) &REST T). ; etc. ; --> IF LAMBDA FUNCTION LET MIN LET 1+ ; ==> ; (+ (- CL-PPCRE::*END-POS* CL-PPCRE::LEN CL-PPCRE::MIN-REST) 1) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline fixnum arithmetic (cost 1) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; etc. ; --> IF LAMBDA FUNCTION LET MIN LET LET IF <= IF ; ==> ; (> SB-C::X SB-C::Y) ; ; note: forced to do GENERIC-> (cost 10) ; unable to do inline fixnum comparison (cost 4) because: ; The first argument is a (INTEGER -13835058055282163709 ; 13835058055282163712), not a FIXNUM. ; The second argument is a (INTEGER -9223372036854775808 ; 9223372036854775806), not a FIXNUM. ; (CL-PPCRE::GREEDY-CONSTANT-LENGTH-CLOSURE ; (CL-PPCRE::*STRING*= CL-PPCRE::STR CL-PPCRE::CURR-POS ; (+ CL-PPCRE::CURR-POS CL-PPCRE::LEN) 0 CL-PPCRE::LEN)) ; --> IF LAMBDA FUNCTION LET 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: forced to do GENERIC-- (cost 10) ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -9223372036854775807 9223372036854775807), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline (signed-byte 64) arithmetic (cost 5) because: ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES (SIGNED-BYTE 64) &REST T). ; etc. ; --> IF LAMBDA FUNCTION LET 1+ ; ==> ; (+ (- CL-PPCRE::*END-POS* CL-PPCRE::LEN CL-PPCRE::MIN-REST) 1) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline fixnum arithmetic (cost 1) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; etc. ; (CL-PPCRE::INSERT-CHAR-CLASS-TESTER (CL-PPCRE::REGEX ; (SCHAR CL-PPCRE::*STRING* ; CL-PPCRE::CURR-POS)) ; (CL-PPCRE::GREEDY-CONSTANT-LENGTH-CLOSURE (CL-PPCRE::CHAR-CLASS-TEST))) ; --> LET LET CL-PPCRE::GREEDY-CONSTANT-LENGTH-CLOSURE IF LAMBDA FUNCTION LET ; --> MIN LET 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: forced to do GENERIC-- (cost 10) ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -9223372036854775807 9223372036854775807), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline (signed-byte 64) arithmetic (cost 5) because: ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES (SIGNED-BYTE 64) &REST T). ; etc. ; --> LET LET CL-PPCRE::GREEDY-CONSTANT-LENGTH-CLOSURE IF LAMBDA FUNCTION LET ; --> MIN LET 1+ ; ==> ; (+ (- CL-PPCRE::*END-POS* CL-PPCRE::LEN CL-PPCRE::MIN-REST) 1) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline fixnum arithmetic (cost 1) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; etc. ; --> LET LET CL-PPCRE::GREEDY-CONSTANT-LENGTH-CLOSURE IF LAMBDA FUNCTION LET ; --> MIN LET LET IF <= IF ; ==> ; (> SB-C::X SB-C::Y) ; ; note: forced to do GENERIC-> (cost 10) ; unable to do inline fixnum comparison (cost 4) because: ; The first argument is a (INTEGER -13835058055282163709 ; 13835058055282163712), not a FIXNUM. ; The second argument is a (INTEGER -9223372036854775808 ; 9223372036854775806), not a FIXNUM. ; --> LET LET CL-PPCRE::GREEDY-CONSTANT-LENGTH-CLOSURE IF LAMBDA FUNCTION LET ; --> 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: forced to do GENERIC-- (cost 10) ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -9223372036854775807 9223372036854775807), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline (signed-byte 64) arithmetic (cost 5) because: ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES (SIGNED-BYTE 64) &REST T). ; etc. ; --> LET LET CL-PPCRE::GREEDY-CONSTANT-LENGTH-CLOSURE IF LAMBDA FUNCTION LET ; --> 1+ ; ==> ; (+ (- CL-PPCRE::*END-POS* CL-PPCRE::LEN CL-PPCRE::MIN-REST) 1) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline fixnum arithmetic (cost 1) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; etc. ; (CL-PPCRE::GREEDY-CONSTANT-LENGTH-CLOSURE ; (CHAR/= #\Newline (SCHAR CL-PPCRE::*STRING* CL-PPCRE::CURR-POS))) ; --> IF LAMBDA FUNCTION LET MIN LET 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: forced to do GENERIC-- (cost 10) ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -9223372036854775807 9223372036854775807), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline (signed-byte 64) arithmetic (cost 5) because: ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES (SIGNED-BYTE 64) &REST T). ; etc. ; --> IF LAMBDA FUNCTION LET MIN LET 1+ ; ==> ; (+ (- CL-PPCRE::*END-POS* CL-PPCRE::LEN CL-PPCRE::MIN-REST) 1) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline fixnum arithmetic (cost 1) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; etc. ; --> IF LAMBDA FUNCTION LET MIN LET LET IF <= IF ; ==> ; (> SB-C::X SB-C::Y) ; ; note: forced to do GENERIC-> (cost 10) ; unable to do inline fixnum comparison (cost 4) because: ; The first argument is a (INTEGER -13835058055282163709 ; 13835058055282163712), not a FIXNUM. ; The second argument is a (INTEGER -9223372036854775808 ; 9223372036854775806), not a FIXNUM. ; --> IF LAMBDA FUNCTION LET 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: forced to do GENERIC-- (cost 10) ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -9223372036854775807 9223372036854775807), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline (signed-byte 64) arithmetic (cost 5) because: ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES (SIGNED-BYTE 64) &REST T). ; etc. ; --> IF LAMBDA FUNCTION LET 1+ ; ==> ; (+ (- CL-PPCRE::*END-POS* CL-PPCRE::LEN CL-PPCRE::MIN-REST) 1) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline fixnum arithmetic (cost 1) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; etc. ; (CL-PPCRE::GREEDY-CONSTANT-LENGTH-CLOSURE ; (FUNCALL CL-PPCRE::INNER-MATCHER CL-PPCRE::CURR-POS)) ; --> IF LAMBDA FUNCTION LET MIN LET 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: forced to do GENERIC-- (cost 10) ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -9223372036854775807 9223372036854775807), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline (signed-byte 64) arithmetic (cost 5) because: ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES (SIGNED-BYTE 64) &REST T). ; etc. ; --> IF LAMBDA FUNCTION LET MIN LET 1+ ; ==> ; (+ (- CL-PPCRE::*END-POS* CL-PPCRE::LEN CL-PPCRE::MIN-REST) 1) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline fixnum arithmetic (cost 1) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; etc. ; --> IF LAMBDA FUNCTION LET MIN LET LET IF <= IF ; ==> ; (> SB-C::X SB-C::Y) ; ; note: forced to do GENERIC-> (cost 10) ; unable to do inline fixnum comparison (cost 4) because: ; The first argument is a (INTEGER -13835058055282163709 ; 13835058055282163712), not a FIXNUM. ; The second argument is a (INTEGER -9223372036854775808 ; 9223372036854775806), not a FIXNUM. ; --> IF LAMBDA FUNCTION LET 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: forced to do GENERIC-- (cost 10) ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -9223372036854775807 9223372036854775807), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline (signed-byte 64) arithmetic (cost 5) because: ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES (SIGNED-BYTE 64) &REST T). ; etc. ; --> IF LAMBDA FUNCTION LET 1+ ; ==> ; (+ (- CL-PPCRE::*END-POS* CL-PPCRE::LEN CL-PPCRE::MIN-REST) 1) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline fixnum arithmetic (cost 1) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; etc. ; --> IF LAMBDA FUNCTION LET 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: doing signed word to integer coercion (cost 20), for: ; the first argument of GENERIC-- ; --> IF LAMBDA FUNCTION LET MIN LET 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: doing signed word to integer coercion (cost 20), for: ; the first argument of GENERIC-- ; --> IF LAMBDA FUNCTION LET MIN LET LET MIN LET ; ==> ; (+ CL-PPCRE::START-POS (THE FIXNUM (* CL-PPCRE::LEN CL-PPCRE::MAXIMUM))) ; ; note: doing signed word to integer coercion (cost 20), for: ; the first result of inline (signed-byte 64) arithmetic ; (CL-PPCRE::GREEDY-CONSTANT-LENGTH-CLOSURE ; (CHAR/= #\Newline (SCHAR CL-PPCRE::*STRING* CL-PPCRE::CURR-POS))) ; --> IF LAMBDA FUNCTION LET 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: doing signed word to integer coercion (cost 20), for: ; the first argument of GENERIC-- ; --> IF LAMBDA FUNCTION LET MIN LET 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: doing signed word to integer coercion (cost 20), for: ; the first argument of GENERIC-- ; --> IF LAMBDA FUNCTION LET MIN LET LET MIN LET ; ==> ; (+ CL-PPCRE::START-POS (THE FIXNUM (* CL-PPCRE::LEN CL-PPCRE::MAXIMUM))) ; ; note: doing signed word to integer coercion (cost 20), for: ; the first result of inline (signed-byte 64) arithmetic ; (CL-PPCRE::INSERT-CHAR-CLASS-TESTER (CL-PPCRE::REGEX ; (SCHAR CL-PPCRE::*STRING* ; CL-PPCRE::CURR-POS)) ; (CL-PPCRE::GREEDY-CONSTANT-LENGTH-CLOSURE (CL-PPCRE::CHAR-CLASS-TEST))) ; --> LET LET CL-PPCRE::GREEDY-CONSTANT-LENGTH-CLOSURE IF LAMBDA FUNCTION LET ; --> 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: doing signed word to integer coercion (cost 20), for: ; the first argument of GENERIC-- ; --> LET LET CL-PPCRE::GREEDY-CONSTANT-LENGTH-CLOSURE IF LAMBDA FUNCTION LET ; --> MIN LET 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: doing signed word to integer coercion (cost 20), for: ; the first argument of GENERIC-- ; --> LET LET CL-PPCRE::GREEDY-CONSTANT-LENGTH-CLOSURE IF LAMBDA FUNCTION LET ; --> MIN LET LET MIN LET ; ==> ; (+ CL-PPCRE::START-POS (THE FIXNUM (* CL-PPCRE::LEN CL-PPCRE::MAXIMUM))) ; ; note: doing signed word to integer coercion (cost 20), for: ; the first result of inline (signed-byte 64) arithmetic ; (CL-PPCRE::GREEDY-CONSTANT-LENGTH-CLOSURE ; (CL-PPCRE::*STRING*= CL-PPCRE::STR CL-PPCRE::CURR-POS ; (+ CL-PPCRE::CURR-POS CL-PPCRE::LEN) 0 CL-PPCRE::LEN)) ; --> IF LAMBDA FUNCTION LET 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: doing signed word to integer coercion (cost 20), for: ; the first argument of GENERIC-- ; --> IF LAMBDA FUNCTION LET MIN LET 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: doing signed word to integer coercion (cost 20), for: ; the first argument of GENERIC-- ; --> IF LAMBDA FUNCTION LET MIN LET LET MIN LET ; ==> ; (+ CL-PPCRE::START-POS (THE FIXNUM (* CL-PPCRE::LEN CL-PPCRE::MAXIMUM))) ; ; note: doing signed word to integer coercion (cost 20), for: ; the first result of inline (signed-byte 64) arithmetic ; (CL-PPCRE::GREEDY-CONSTANT-LENGTH-CLOSURE ; (CL-PPCRE::*STRING*-EQUAL CL-PPCRE::STR CL-PPCRE::CURR-POS ; (+ CL-PPCRE::CURR-POS CL-PPCRE::LEN) 0 ; CL-PPCRE::LEN)) ; --> IF LAMBDA FUNCTION LET 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: doing signed word to integer coercion (cost 20), for: ; the first argument of GENERIC-- ; --> IF LAMBDA FUNCTION LET MIN LET 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: doing signed word to integer coercion (cost 20), for: ; the first argument of GENERIC-- ; --> IF LAMBDA FUNCTION LET MIN LET LET MIN LET ; ==> ; (+ CL-PPCRE::START-POS (THE FIXNUM (* CL-PPCRE::LEN CL-PPCRE::MAXIMUM))) ; ; note: doing signed word to integer coercion (cost 20), for: ; the first result of inline (signed-byte 64) arithmetic ; (CL-PPCRE::GREEDY-CONSTANT-LENGTH-CLOSURE ; (CHAR= CL-PPCRE::CHR (SCHAR CL-PPCRE::*STRING* CL-PPCRE::CURR-POS))) ; --> IF LAMBDA FUNCTION LET 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: doing signed word to integer coercion (cost 20), for: ; the first argument of GENERIC-- ; --> IF LAMBDA FUNCTION LET MIN LET 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: doing signed word to integer coercion (cost 20), for: ; the first argument of GENERIC-- ; --> IF LAMBDA FUNCTION LET MIN LET LET MIN LET ; ==> ; (+ CL-PPCRE::START-POS (THE FIXNUM (* CL-PPCRE::LEN CL-PPCRE::MAXIMUM))) ; ; note: doing signed word to integer coercion (cost 20), for: ; the first result of inline (signed-byte 64) arithmetic ; (CL-PPCRE::GREEDY-CONSTANT-LENGTH-CLOSURE ; (CHAR-EQUAL CL-PPCRE::CHR (SCHAR CL-PPCRE::*STRING* CL-PPCRE::CURR-POS))) ; --> IF LAMBDA FUNCTION LET 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: doing signed word to integer coercion (cost 20), for: ; the first argument of GENERIC-- ; --> IF LAMBDA FUNCTION LET MIN LET 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: doing signed word to integer coercion (cost 20), for: ; the first argument of GENERIC-- ; --> IF LAMBDA FUNCTION LET MIN LET LET MIN LET ; ==> ; (+ CL-PPCRE::START-POS (THE FIXNUM (* CL-PPCRE::LEN CL-PPCRE::MAXIMUM))) ; ; note: doing signed word to integer coercion (cost 20), for: ; the first result of inline (signed-byte 64) arithmetic ; compiling (DEFGENERIC CREATE-GREEDY-NO-ZERO-MATCHER ...) ; compiling (DEFMETHOD CREATE-GREEDY-NO-ZERO-MATCHER ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/repetition-closures.lisp ; in: DEFMETHOD CREATE-GREEDY-NO-ZERO-MATCHER (REPETITION T) ; (SETF (AREF CL-PPCRE::*REPEAT-COUNTERS* CL-PPCRE::REP-NUM) 0) ; --> LET* FUNCALL SB-C::%FUNCALL (SETF AREF) ; ==> ; (SB-KERNEL:HAIRY-DATA-VECTOR-SET ARRAY SB-INT:INDEX SB-C::NEW-VALUE) ; ; note: unable to ; avoid runtime dispatch on array element type ; due to type uncertainty: ; The first argument is a (VECTOR FIXNUM), not a SIMPLE-ARRAY. ; (AREF CL-PPCRE::*REPEAT-COUNTERS* CL-PPCRE::REP-NUM) ; ==> ; (SB-KERNEL:HAIRY-DATA-VECTOR-REF ARRAY SB-INT:INDEX) ; ; note: unable to ; avoid runtime dispatch on array element type ; due to type uncertainty: ; The first argument is a (VECTOR FIXNUM), not a SIMPLE-ARRAY. ; (INCF (AREF CL-PPCRE::*REPEAT-COUNTERS* CL-PPCRE::REP-NUM)) ; --> LET* + AREF ; ==> ; (SB-KERNEL:HAIRY-DATA-VECTOR-REF ARRAY SB-INT:INDEX) ; ; note: unable to ; avoid runtime dispatch on array element type ; due to type uncertainty: ; The first argument is a (VECTOR FIXNUM), not a SIMPLE-ARRAY. ; --> LET* FUNCALL SB-C::%FUNCALL (SETF AREF) ; ==> ; (SB-KERNEL:HAIRY-DATA-VECTOR-SET ARRAY SB-INT:INDEX SB-C::NEW-VALUE) ; ; note: unable to ; avoid runtime dispatch on array element type ; due to type uncertainty: ; The first argument is a (VECTOR FIXNUM), not a SIMPLE-ARRAY. ; (DECF (AREF CL-PPCRE::*REPEAT-COUNTERS* CL-PPCRE::REP-NUM)) ; --> LET* SB-IMPL::XSUBTRACT AREF ; ==> ; (SB-KERNEL:HAIRY-DATA-VECTOR-REF ARRAY SB-INT:INDEX) ; ; note: unable to ; avoid runtime dispatch on array element type ; due to type uncertainty: ; The first argument is a (VECTOR FIXNUM), not a SIMPLE-ARRAY. ; --> LET* FUNCALL SB-C::%FUNCALL (SETF AREF) ; ==> ; (SB-KERNEL:HAIRY-DATA-VECTOR-SET ARRAY SB-INT:INDEX SB-C::NEW-VALUE) ; ; note: unable to ; avoid runtime dispatch on array element type ; due to type uncertainty: ; The first argument is a (VECTOR FIXNUM), not a SIMPLE-ARRAY. ; compiling (DEFGENERIC CREATE-GREEDY-MATCHER ...) ; compiling (DEFMETHOD CREATE-GREEDY-MATCHER ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/repetition-closures.lisp ; in: DEFMETHOD CREATE-GREEDY-MATCHER (REPETITION T) ; (SETF (AREF CL-PPCRE::*REPEAT-COUNTERS* CL-PPCRE::REP-NUM) 0 ; (SVREF CL-PPCRE::*LAST-POS-STORES* CL-PPCRE::ZERO-LENGTH-NUM) NIL) ; --> PROGN SETF LET* FUNCALL SB-C::%FUNCALL (SETF AREF) ; ==> ; (SB-KERNEL:HAIRY-DATA-VECTOR-SET ARRAY SB-INT:INDEX SB-C::NEW-VALUE) ; ; note: unable to ; avoid runtime dispatch on array element type ; due to type uncertainty: ; The first argument is a (VECTOR FIXNUM), not a SIMPLE-ARRAY. ; (AREF CL-PPCRE::*REPEAT-COUNTERS* CL-PPCRE::REP-NUM) ; ==> ; (SB-KERNEL:HAIRY-DATA-VECTOR-REF ARRAY SB-INT:INDEX) ; ; note: unable to ; avoid runtime dispatch on array element type ; due to type uncertainty: ; The first argument is a (VECTOR FIXNUM), not a SIMPLE-ARRAY. ; (INCF (AREF CL-PPCRE::*REPEAT-COUNTERS* CL-PPCRE::REP-NUM)) ; --> LET* + AREF ; ==> ; (SB-KERNEL:HAIRY-DATA-VECTOR-REF ARRAY SB-INT:INDEX) ; ; note: unable to ; avoid runtime dispatch on array element type ; due to type uncertainty: ; The first argument is a (VECTOR FIXNUM), not a SIMPLE-ARRAY. ; --> LET* FUNCALL SB-C::%FUNCALL (SETF AREF) ; ==> ; (SB-KERNEL:HAIRY-DATA-VECTOR-SET ARRAY SB-INT:INDEX SB-C::NEW-VALUE) ; ; note: unable to ; avoid runtime dispatch on array element type ; due to type uncertainty: ; The first argument is a (VECTOR FIXNUM), not a SIMPLE-ARRAY. ; (DECF (AREF CL-PPCRE::*REPEAT-COUNTERS* CL-PPCRE::REP-NUM)) ; --> LET* SB-IMPL::XSUBTRACT AREF ; ==> ; (SB-KERNEL:HAIRY-DATA-VECTOR-REF ARRAY SB-INT:INDEX) ; ; note: unable to ; avoid runtime dispatch on array element type ; due to type uncertainty: ; The first argument is a (VECTOR FIXNUM), not a SIMPLE-ARRAY. ; --> LET* FUNCALL SB-C::%FUNCALL (SETF AREF) ; ==> ; (SB-KERNEL:HAIRY-DATA-VECTOR-SET ARRAY SB-INT:INDEX SB-C::NEW-VALUE) ; ; note: unable to ; avoid runtime dispatch on array element type ; due to type uncertainty: ; The first argument is a (VECTOR FIXNUM), not a SIMPLE-ARRAY. ; compiling (DEFMACRO NON-GREEDY-CONSTANT-LENGTH-CLOSURE ...) ; compiling (DEFGENERIC CREATE-NON-GREEDY-CONSTANT-LENGTH-MATCHER ...) ; compiling (DEFMETHOD CREATE-NON-GREEDY-CONSTANT-LENGTH-MATCHER ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/repetition-closures.lisp ; in: DEFMETHOD CREATE-NON-GREEDY-CONSTANT-LENGTH-MATCHER (REPETITION T) ; (CL-PPCRE::INSERT-CHAR-CLASS-TESTER (CL-PPCRE::REGEX ; (SCHAR CL-PPCRE::*STRING* ; CL-PPCRE::CURR-POS)) ; (CL-PPCRE::NON-GREEDY-CONSTANT-LENGTH-CLOSURE (CL-PPCRE::CHAR-CLASS-TEST))) ; --> LET LET CL-PPCRE::NON-GREEDY-CONSTANT-LENGTH-CLOSURE IF LAMBDA FUNCTION ; --> LET LOOP BLOCK LET LET SB-LOOP::LOOP-BODY TAGBODY UNLESS IF FUNCALL ; --> SB-C::%FUNCALL THE ; ==> ; (SB-KERNEL:%COERCE-CALLABLE-TO-FUN #:TEST-FUNCTION610) ; ; note: unable to ; optimize away possible call to FDEFINITION at runtime ; because: ; not known to be a function ; ; note: unable to ; optimize away possible call to FDEFINITION at runtime ; because: ; not known to be a function ; (CL-PPCRE::*STRING*-EQUAL CL-PPCRE::STR CL-PPCRE::CURR-POS ; (+ CL-PPCRE::CURR-POS CL-PPCRE::LEN) 0 ; CL-PPCRE::LEN) ; --> BLOCK LOOP BLOCK LET LET SB-LOOP::LOOP-BODY TAGBODY UNLESS IF CHAR-EQUAL ; ==> ; (SB-INT:TWO-ARG-CHAR-EQUAL (SCHAR CL-PPCRE::*STRING* CL-PPCRE::STRING1-IDX) ; (SCHAR CL-PPCRE::STRING2 CL-PPCRE::STRING2-IDX)) ; ; note: unable to ; open code ; due to type uncertainty: ; The first argument is a CHARACTER, not a BASE-CHAR. ; The second argument is a CHARACTER, not a BASE-CHAR. ; (CHAR-EQUAL CL-PPCRE::CHR (SCHAR CL-PPCRE::*STRING* CL-PPCRE::CURR-POS)) ; ==> ; (SB-INT:TWO-ARG-CHAR-EQUAL CL-PPCRE::CHR ; (SCHAR CL-PPCRE::*STRING* CL-PPCRE::CURR-POS)) ; ; note: unable to ; open code ; due to type uncertainty: ; The first argument is a CHARACTER, not a BASE-CHAR. ; The second argument is a CHARACTER, not a BASE-CHAR. ; ; note: unable to ; open code ; due to type uncertainty: ; The first argument is a CHARACTER, not a BASE-CHAR. ; The second argument is a CHARACTER, not a BASE-CHAR. ; (CL-PPCRE::*STRING*-EQUAL CL-PPCRE::STR CL-PPCRE::CURR-POS ; (+ CL-PPCRE::CURR-POS CL-PPCRE::LEN) 0 ; CL-PPCRE::LEN) ; --> BLOCK LOOP BLOCK LET LET SB-LOOP::LOOP-BODY TAGBODY UNLESS IF CHAR-EQUAL ; ==> ; (SB-INT:TWO-ARG-CHAR-EQUAL (SCHAR CL-PPCRE::*STRING* CL-PPCRE::STRING1-IDX) ; (SCHAR CL-PPCRE::STRING2 CL-PPCRE::STRING2-IDX)) ; ; note: unable to ; open code ; due to type uncertainty: ; The first argument is a CHARACTER, not a BASE-CHAR. ; The second argument is a CHARACTER, not a BASE-CHAR. ; (CL-PPCRE::NON-GREEDY-CONSTANT-LENGTH-CLOSURE ; (CL-PPCRE::*STRING*= CL-PPCRE::STR CL-PPCRE::CURR-POS ; (+ CL-PPCRE::CURR-POS CL-PPCRE::LEN) 0 CL-PPCRE::LEN)) ; --> IF LAMBDA FUNCTION LET MIN LET 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: forced to do GENERIC-- (cost 10) ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -9223372036854775807 9223372036854775807), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline (signed-byte 64) arithmetic (cost 5) because: ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES (SIGNED-BYTE 64) &REST T). ; etc. ; --> IF LAMBDA FUNCTION LET MIN LET 1+ ; ==> ; (+ (- CL-PPCRE::*END-POS* CL-PPCRE::LEN CL-PPCRE::MIN-REST) 1) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline fixnum arithmetic (cost 1) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; etc. ; --> IF LAMBDA FUNCTION LET MIN LET LET IF <= IF ; ==> ; (> SB-C::X SB-C::Y) ; ; note: forced to do GENERIC-> (cost 10) ; unable to do inline fixnum comparison (cost 4) because: ; The first argument is a (INTEGER -13835058055282163709 ; 13835058055282163712), not a FIXNUM. ; The second argument is a (INTEGER -9223372036854775808 ; 9223372036854775806), not a FIXNUM. ; (CL-PPCRE::NON-GREEDY-CONSTANT-LENGTH-CLOSURE ; (CL-PPCRE::*STRING*-EQUAL CL-PPCRE::STR CL-PPCRE::CURR-POS ; (+ CL-PPCRE::CURR-POS CL-PPCRE::LEN) 0 ; CL-PPCRE::LEN)) ; --> IF LAMBDA FUNCTION LET 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: forced to do GENERIC-- (cost 10) ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -9223372036854775807 9223372036854775807), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline (signed-byte 64) arithmetic (cost 5) because: ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES (SIGNED-BYTE 64) &REST T). ; etc. ; --> IF LAMBDA FUNCTION LET 1+ ; ==> ; (+ (- CL-PPCRE::*END-POS* CL-PPCRE::LEN CL-PPCRE::MIN-REST) 1) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline fixnum arithmetic (cost 1) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; etc. ; (CL-PPCRE::NON-GREEDY-CONSTANT-LENGTH-CLOSURE ; (CHAR-EQUAL CL-PPCRE::CHR (SCHAR CL-PPCRE::*STRING* CL-PPCRE::CURR-POS))) ; --> IF LAMBDA FUNCTION LET MIN LET 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: forced to do GENERIC-- (cost 10) ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -9223372036854775807 9223372036854775807), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline (signed-byte 64) arithmetic (cost 5) because: ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES (SIGNED-BYTE 64) &REST T). ; etc. ; --> IF LAMBDA FUNCTION LET MIN LET 1+ ; ==> ; (+ (- CL-PPCRE::*END-POS* CL-PPCRE::LEN CL-PPCRE::MIN-REST) 1) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline fixnum arithmetic (cost 1) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; etc. ; --> IF LAMBDA FUNCTION LET MIN LET LET IF <= IF ; ==> ; (> SB-C::X SB-C::Y) ; ; note: forced to do GENERIC-> (cost 10) ; unable to do inline fixnum comparison (cost 4) because: ; The first argument is a (INTEGER -13835058055282163709 ; 13835058055282163712), not a FIXNUM. ; The second argument is a (INTEGER -9223372036854775808 ; 9223372036854775806), not a FIXNUM. ; --> IF LAMBDA FUNCTION LET 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: forced to do GENERIC-- (cost 10) ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -9223372036854775807 9223372036854775807), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline (signed-byte 64) arithmetic (cost 5) because: ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES (SIGNED-BYTE 64) &REST T). ; etc. ; --> IF LAMBDA FUNCTION LET 1+ ; ==> ; (+ (- CL-PPCRE::*END-POS* CL-PPCRE::LEN CL-PPCRE::MIN-REST) 1) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline fixnum arithmetic (cost 1) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; etc. ; (CL-PPCRE::NON-GREEDY-CONSTANT-LENGTH-CLOSURE ; (CHAR= CL-PPCRE::CHR (SCHAR CL-PPCRE::*STRING* CL-PPCRE::CURR-POS))) ; --> IF LAMBDA FUNCTION LET MIN LET 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: forced to do GENERIC-- (cost 10) ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -9223372036854775807 9223372036854775807), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline (signed-byte 64) arithmetic (cost 5) because: ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES (SIGNED-BYTE 64) &REST T). ; etc. ; --> IF LAMBDA FUNCTION LET MIN LET 1+ ; ==> ; (+ (- CL-PPCRE::*END-POS* CL-PPCRE::LEN CL-PPCRE::MIN-REST) 1) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline fixnum arithmetic (cost 1) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; etc. ; --> IF LAMBDA FUNCTION LET MIN LET LET IF <= IF ; ==> ; (> SB-C::X SB-C::Y) ; ; note: forced to do GENERIC-> (cost 10) ; unable to do inline fixnum comparison (cost 4) because: ; The first argument is a (INTEGER -13835058055282163709 ; 13835058055282163712), not a FIXNUM. ; The second argument is a (INTEGER -9223372036854775808 ; 9223372036854775806), not a FIXNUM. ; --> IF LAMBDA FUNCTION LET 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: forced to do GENERIC-- (cost 10) ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -9223372036854775807 9223372036854775807), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline (signed-byte 64) arithmetic (cost 5) because: ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES (SIGNED-BYTE 64) &REST T). ; etc. ; --> IF LAMBDA FUNCTION LET 1+ ; ==> ; (+ (- CL-PPCRE::*END-POS* CL-PPCRE::LEN CL-PPCRE::MIN-REST) 1) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline fixnum arithmetic (cost 1) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; etc. ; (CL-PPCRE::NON-GREEDY-CONSTANT-LENGTH-CLOSURE ; (CL-PPCRE::*STRING*-EQUAL CL-PPCRE::STR CL-PPCRE::CURR-POS ; (+ CL-PPCRE::CURR-POS CL-PPCRE::LEN) 0 ; CL-PPCRE::LEN)) ; --> IF LAMBDA FUNCTION LET MIN LET 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: forced to do GENERIC-- (cost 10) ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -9223372036854775807 9223372036854775807), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline (signed-byte 64) arithmetic (cost 5) because: ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES (SIGNED-BYTE 64) &REST T). ; etc. ; --> IF LAMBDA FUNCTION LET MIN LET 1+ ; ==> ; (+ (- CL-PPCRE::*END-POS* CL-PPCRE::LEN CL-PPCRE::MIN-REST) 1) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline fixnum arithmetic (cost 1) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; etc. ; --> IF LAMBDA FUNCTION LET MIN LET LET IF <= IF ; ==> ; (> SB-C::X SB-C::Y) ; ; note: forced to do GENERIC-> (cost 10) ; unable to do inline fixnum comparison (cost 4) because: ; The first argument is a (INTEGER -13835058055282163709 ; 13835058055282163712), not a FIXNUM. ; The second argument is a (INTEGER -9223372036854775808 ; 9223372036854775806), not a FIXNUM. ; (CL-PPCRE::NON-GREEDY-CONSTANT-LENGTH-CLOSURE ; (CL-PPCRE::*STRING*= CL-PPCRE::STR CL-PPCRE::CURR-POS ; (+ CL-PPCRE::CURR-POS CL-PPCRE::LEN) 0 CL-PPCRE::LEN)) ; --> IF LAMBDA FUNCTION LET 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: forced to do GENERIC-- (cost 10) ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -9223372036854775807 9223372036854775807), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline (signed-byte 64) arithmetic (cost 5) because: ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES (SIGNED-BYTE 64) &REST T). ; etc. ; --> IF LAMBDA FUNCTION LET 1+ ; ==> ; (+ (- CL-PPCRE::*END-POS* CL-PPCRE::LEN CL-PPCRE::MIN-REST) 1) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline fixnum arithmetic (cost 1) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; etc. ; (CL-PPCRE::INSERT-CHAR-CLASS-TESTER (CL-PPCRE::REGEX ; (SCHAR CL-PPCRE::*STRING* ; CL-PPCRE::CURR-POS)) ; (CL-PPCRE::NON-GREEDY-CONSTANT-LENGTH-CLOSURE (CL-PPCRE::CHAR-CLASS-TEST))) ; --> LET LET CL-PPCRE::NON-GREEDY-CONSTANT-LENGTH-CLOSURE IF LAMBDA FUNCTION ; --> LET MIN LET 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: forced to do GENERIC-- (cost 10) ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -9223372036854775807 9223372036854775807), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline (signed-byte 64) arithmetic (cost 5) because: ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES (SIGNED-BYTE 64) &REST T). ; etc. ; --> LET LET CL-PPCRE::NON-GREEDY-CONSTANT-LENGTH-CLOSURE IF LAMBDA FUNCTION ; --> LET MIN LET 1+ ; ==> ; (+ (- CL-PPCRE::*END-POS* CL-PPCRE::LEN CL-PPCRE::MIN-REST) 1) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline fixnum arithmetic (cost 1) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; etc. ; --> LET LET CL-PPCRE::NON-GREEDY-CONSTANT-LENGTH-CLOSURE IF LAMBDA FUNCTION ; --> LET MIN LET LET IF <= IF ; ==> ; (> SB-C::X SB-C::Y) ; ; note: forced to do GENERIC-> (cost 10) ; unable to do inline fixnum comparison (cost 4) because: ; The first argument is a (INTEGER -13835058055282163709 ; 13835058055282163712), not a FIXNUM. ; The second argument is a (INTEGER -9223372036854775808 ; 9223372036854775806), not a FIXNUM. ; --> LET LET CL-PPCRE::NON-GREEDY-CONSTANT-LENGTH-CLOSURE IF LAMBDA FUNCTION ; --> LET 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: forced to do GENERIC-- (cost 10) ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -9223372036854775807 9223372036854775807), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline (signed-byte 64) arithmetic (cost 5) because: ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES (SIGNED-BYTE 64) &REST T). ; etc. ; --> LET LET CL-PPCRE::NON-GREEDY-CONSTANT-LENGTH-CLOSURE IF LAMBDA FUNCTION ; --> LET 1+ ; ==> ; (+ (- CL-PPCRE::*END-POS* CL-PPCRE::LEN CL-PPCRE::MIN-REST) 1) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline fixnum arithmetic (cost 1) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; etc. ; (CL-PPCRE::NON-GREEDY-CONSTANT-LENGTH-CLOSURE T) ; --> IF LAMBDA FUNCTION LET MIN LET 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: forced to do GENERIC-- (cost 10) ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -9223372036854775807 9223372036854775807), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline (signed-byte 64) arithmetic (cost 5) because: ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES (SIGNED-BYTE 64) &REST T). ; etc. ; --> IF LAMBDA FUNCTION LET MIN LET 1+ ; ==> ; (+ (- CL-PPCRE::*END-POS* CL-PPCRE::LEN CL-PPCRE::MIN-REST) 1) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline fixnum arithmetic (cost 1) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; etc. ; --> IF LAMBDA FUNCTION LET MIN LET LET IF <= IF ; ==> ; (> SB-C::X SB-C::Y) ; ; note: forced to do GENERIC-> (cost 10) ; unable to do inline fixnum comparison (cost 4) because: ; The first argument is a (INTEGER -13835058055282163709 ; 13835058055282163712), not a FIXNUM. ; The second argument is a (INTEGER -9223372036854775808 ; 9223372036854775806), not a FIXNUM. ; --> IF LAMBDA FUNCTION LET 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: forced to do GENERIC-- (cost 10) ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -9223372036854775807 9223372036854775807), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline (signed-byte 64) arithmetic (cost 5) because: ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES (SIGNED-BYTE 64) &REST T). ; etc. ; --> IF LAMBDA FUNCTION LET 1+ ; ==> ; (+ (- CL-PPCRE::*END-POS* CL-PPCRE::LEN CL-PPCRE::MIN-REST) 1) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline fixnum arithmetic (cost 1) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; etc. ; (CL-PPCRE::NON-GREEDY-CONSTANT-LENGTH-CLOSURE ; (CHAR/= #\Newline (SCHAR CL-PPCRE::*STRING* CL-PPCRE::CURR-POS))) ; --> IF LAMBDA FUNCTION LET MIN LET 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: forced to do GENERIC-- (cost 10) ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -9223372036854775807 9223372036854775807), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline (signed-byte 64) arithmetic (cost 5) because: ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES (SIGNED-BYTE 64) &REST T). ; etc. ; --> IF LAMBDA FUNCTION LET MIN LET 1+ ; ==> ; (+ (- CL-PPCRE::*END-POS* CL-PPCRE::LEN CL-PPCRE::MIN-REST) 1) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline fixnum arithmetic (cost 1) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; etc. ; --> IF LAMBDA FUNCTION LET MIN LET LET IF <= IF ; ==> ; (> SB-C::X SB-C::Y) ; ; note: forced to do GENERIC-> (cost 10) ; unable to do inline fixnum comparison (cost 4) because: ; The first argument is a (INTEGER -13835058055282163709 ; 13835058055282163712), not a FIXNUM. ; The second argument is a (INTEGER -9223372036854775808 ; 9223372036854775806), not a FIXNUM. ; --> IF LAMBDA FUNCTION LET 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: forced to do GENERIC-- (cost 10) ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -9223372036854775807 9223372036854775807), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline (signed-byte 64) arithmetic (cost 5) because: ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES (SIGNED-BYTE 64) &REST T). ; etc. ; --> IF LAMBDA FUNCTION LET 1+ ; ==> ; (+ (- CL-PPCRE::*END-POS* CL-PPCRE::LEN CL-PPCRE::MIN-REST) 1) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline fixnum arithmetic (cost 1) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; etc. ; (CL-PPCRE::NON-GREEDY-CONSTANT-LENGTH-CLOSURE ; (FUNCALL CL-PPCRE::INNER-MATCHER CL-PPCRE::CURR-POS)) ; --> IF LAMBDA FUNCTION LET MIN LET 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: forced to do GENERIC-- (cost 10) ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -9223372036854775807 9223372036854775807), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline (signed-byte 64) arithmetic (cost 5) because: ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES (SIGNED-BYTE 64) &REST T). ; etc. ; --> IF LAMBDA FUNCTION LET MIN LET 1+ ; ==> ; (+ (- CL-PPCRE::*END-POS* CL-PPCRE::LEN CL-PPCRE::MIN-REST) 1) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline fixnum arithmetic (cost 1) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; etc. ; --> IF LAMBDA FUNCTION LET MIN LET LET IF <= IF ; ==> ; (> SB-C::X SB-C::Y) ; ; note: forced to do GENERIC-> (cost 10) ; unable to do inline fixnum comparison (cost 4) because: ; The first argument is a (INTEGER -13835058055282163709 ; 13835058055282163712), not a FIXNUM. ; The second argument is a (INTEGER -9223372036854775808 ; 9223372036854775806), not a FIXNUM. ; --> IF LAMBDA FUNCTION LET 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: forced to do GENERIC-- (cost 10) ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -9223372036854775807 9223372036854775807), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline (signed-byte 64) arithmetic (cost 5) because: ; The result is a (VALUES ; (INTEGER -13835058055282163710 13835058055282163711) ; &OPTIONAL), not a (VALUES (SIGNED-BYTE 64) &REST T). ; etc. ; --> IF LAMBDA FUNCTION LET 1+ ; ==> ; (+ (- CL-PPCRE::*END-POS* CL-PPCRE::LEN CL-PPCRE::MIN-REST) 1) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline fixnum arithmetic (cost 1) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a (INTEGER -13835058055282163710 ; 13835058055282163711), not a FIXNUM. ; The result is a (VALUES ; (INTEGER -13835058055282163709 13835058055282163712) ; &OPTIONAL), not a (VALUES FIXNUM &REST T). ; etc. ; --> IF LAMBDA FUNCTION LET 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: doing signed word to integer coercion (cost 20), for: ; the first argument of GENERIC-- ; --> IF LAMBDA FUNCTION LET MIN LET 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: doing signed word to integer coercion (cost 20), for: ; the first argument of GENERIC-- ; --> IF LAMBDA FUNCTION LET MIN LET LET MIN LET ; ==> ; (+ CL-PPCRE::START-POS (THE FIXNUM (* CL-PPCRE::LEN CL-PPCRE::MAXIMUM))) ; ; note: doing signed word to integer coercion (cost 20), for: ; the first result of inline (signed-byte 64) arithmetic ; (CL-PPCRE::NON-GREEDY-CONSTANT-LENGTH-CLOSURE ; (CHAR/= #\Newline (SCHAR CL-PPCRE::*STRING* CL-PPCRE::CURR-POS))) ; --> IF LAMBDA FUNCTION LET 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: doing signed word to integer coercion (cost 20), for: ; the first argument of GENERIC-- ; --> IF LAMBDA FUNCTION LET MIN LET 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: doing signed word to integer coercion (cost 20), for: ; the first argument of GENERIC-- ; --> IF LAMBDA FUNCTION LET MIN LET LET MIN LET ; ==> ; (+ CL-PPCRE::START-POS (THE FIXNUM (* CL-PPCRE::LEN CL-PPCRE::MAXIMUM))) ; ; note: doing signed word to integer coercion (cost 20), for: ; the first result of inline (signed-byte 64) arithmetic ; (CL-PPCRE::NON-GREEDY-CONSTANT-LENGTH-CLOSURE T) ; --> IF LAMBDA FUNCTION LET 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: doing signed word to integer coercion (cost 20), for: ; the first argument of GENERIC-- ; --> IF LAMBDA FUNCTION LET MIN LET 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: doing signed word to integer coercion (cost 20), for: ; the first argument of GENERIC-- ; --> IF LAMBDA FUNCTION LET MIN LET LET MIN LET ; ==> ; (+ CL-PPCRE::START-POS (THE FIXNUM (* CL-PPCRE::LEN CL-PPCRE::MAXIMUM))) ; ; note: doing signed word to integer coercion (cost 20), for: ; the first result of inline (signed-byte 64) arithmetic ; (CL-PPCRE::INSERT-CHAR-CLASS-TESTER (CL-PPCRE::REGEX ; (SCHAR CL-PPCRE::*STRING* ; CL-PPCRE::CURR-POS)) ; (CL-PPCRE::NON-GREEDY-CONSTANT-LENGTH-CLOSURE (CL-PPCRE::CHAR-CLASS-TEST))) ; --> LET LET CL-PPCRE::NON-GREEDY-CONSTANT-LENGTH-CLOSURE IF LAMBDA FUNCTION ; --> LET 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: doing signed word to integer coercion (cost 20), for: ; the first argument of GENERIC-- ; --> LET LET CL-PPCRE::NON-GREEDY-CONSTANT-LENGTH-CLOSURE IF LAMBDA FUNCTION ; --> LET MIN LET 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: doing signed word to integer coercion (cost 20), for: ; the first argument of GENERIC-- ; --> LET LET CL-PPCRE::NON-GREEDY-CONSTANT-LENGTH-CLOSURE IF LAMBDA FUNCTION ; --> LET MIN LET LET MIN LET ; ==> ; (+ CL-PPCRE::START-POS (THE FIXNUM (* CL-PPCRE::LEN CL-PPCRE::MAXIMUM))) ; ; note: doing signed word to integer coercion (cost 20), for: ; the first result of inline (signed-byte 64) arithmetic ; (CL-PPCRE::NON-GREEDY-CONSTANT-LENGTH-CLOSURE ; (CL-PPCRE::*STRING*= CL-PPCRE::STR CL-PPCRE::CURR-POS ; (+ CL-PPCRE::CURR-POS CL-PPCRE::LEN) 0 CL-PPCRE::LEN)) ; --> IF LAMBDA FUNCTION LET 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: doing signed word to integer coercion (cost 20), for: ; the first argument of GENERIC-- ; --> IF LAMBDA FUNCTION LET MIN LET 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: doing signed word to integer coercion (cost 20), for: ; the first argument of GENERIC-- ; --> IF LAMBDA FUNCTION LET MIN LET LET MIN LET ; ==> ; (+ CL-PPCRE::START-POS (THE FIXNUM (* CL-PPCRE::LEN CL-PPCRE::MAXIMUM))) ; ; note: doing signed word to integer coercion (cost 20), for: ; the first result of inline (signed-byte 64) arithmetic ; (CL-PPCRE::NON-GREEDY-CONSTANT-LENGTH-CLOSURE ; (CL-PPCRE::*STRING*-EQUAL CL-PPCRE::STR CL-PPCRE::CURR-POS ; (+ CL-PPCRE::CURR-POS CL-PPCRE::LEN) 0 ; CL-PPCRE::LEN)) ; --> IF LAMBDA FUNCTION LET 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: doing signed word to integer coercion (cost 20), for: ; the first argument of GENERIC-- ; --> IF LAMBDA FUNCTION LET MIN LET 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: doing signed word to integer coercion (cost 20), for: ; the first argument of GENERIC-- ; --> IF LAMBDA FUNCTION LET MIN LET LET MIN LET ; ==> ; (+ CL-PPCRE::START-POS (THE FIXNUM (* CL-PPCRE::LEN CL-PPCRE::MAXIMUM))) ; ; note: doing signed word to integer coercion (cost 20), for: ; the first result of inline (signed-byte 64) arithmetic ; (CL-PPCRE::NON-GREEDY-CONSTANT-LENGTH-CLOSURE ; (CHAR= CL-PPCRE::CHR (SCHAR CL-PPCRE::*STRING* CL-PPCRE::CURR-POS))) ; --> IF LAMBDA FUNCTION LET 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: doing signed word to integer coercion (cost 20), for: ; the first argument of GENERIC-- ; --> IF LAMBDA FUNCTION LET MIN LET 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: doing signed word to integer coercion (cost 20), for: ; the first argument of GENERIC-- ; --> IF LAMBDA FUNCTION LET MIN LET LET MIN LET ; ==> ; (+ CL-PPCRE::START-POS (THE FIXNUM (* CL-PPCRE::LEN CL-PPCRE::MAXIMUM))) ; ; note: doing signed word to integer coercion (cost 20), for: ; the first result of inline (signed-byte 64) arithmetic ; (CL-PPCRE::NON-GREEDY-CONSTANT-LENGTH-CLOSURE ; (CHAR-EQUAL CL-PPCRE::CHR (SCHAR CL-PPCRE::*STRING* CL-PPCRE::CURR-POS))) ; --> IF LAMBDA FUNCTION LET 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: doing signed word to integer coercion (cost 20), for: ; the first argument of GENERIC-- ; --> IF LAMBDA FUNCTION LET MIN LET 1+ + - ; ==> ; (- (- CL-PPCRE::*END-POS* CL-PPCRE::LEN) CL-PPCRE::MIN-REST) ; ; note: doing signed word to integer coercion (cost 20), for: ; the first argument of GENERIC-- ; --> IF LAMBDA FUNCTION LET MIN LET LET MIN LET ; ==> ; (+ CL-PPCRE::START-POS (THE FIXNUM (* CL-PPCRE::LEN CL-PPCRE::MAXIMUM))) ; ; note: doing signed word to integer coercion (cost 20), for: ; the first result of inline (signed-byte 64) arithmetic ; compiling (DEFGENERIC CREATE-NON-GREEDY-NO-ZERO-MATCHER ...) ; compiling (DEFMETHOD CREATE-NON-GREEDY-NO-ZERO-MATCHER ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/repetition-closures.lisp ; in: DEFMETHOD CREATE-NON-GREEDY-NO-ZERO-MATCHER (REPETITION T) ; (SETF (AREF CL-PPCRE::*REPEAT-COUNTERS* CL-PPCRE::REP-NUM) 0) ; --> LET* FUNCALL SB-C::%FUNCALL (SETF AREF) ; ==> ; (SB-KERNEL:HAIRY-DATA-VECTOR-SET ARRAY SB-INT:INDEX SB-C::NEW-VALUE) ; ; note: unable to ; avoid runtime dispatch on array element type ; due to type uncertainty: ; The first argument is a (VECTOR FIXNUM), not a SIMPLE-ARRAY. ; (AREF CL-PPCRE::*REPEAT-COUNTERS* CL-PPCRE::REP-NUM) ; ==> ; (SB-KERNEL:HAIRY-DATA-VECTOR-REF ARRAY SB-INT:INDEX) ; ; note: unable to ; avoid runtime dispatch on array element type ; due to type uncertainty: ; The first argument is a (VECTOR FIXNUM), not a SIMPLE-ARRAY. ; (INCF (AREF CL-PPCRE::*REPEAT-COUNTERS* CL-PPCRE::REP-NUM)) ; --> LET* + AREF ; ==> ; (SB-KERNEL:HAIRY-DATA-VECTOR-REF ARRAY SB-INT:INDEX) ; ; note: unable to ; avoid runtime dispatch on array element type ; due to type uncertainty: ; The first argument is a (VECTOR FIXNUM), not a SIMPLE-ARRAY. ; --> LET* FUNCALL SB-C::%FUNCALL (SETF AREF) ; ==> ; (SB-KERNEL:HAIRY-DATA-VECTOR-SET ARRAY SB-INT:INDEX SB-C::NEW-VALUE) ; ; note: unable to ; avoid runtime dispatch on array element type ; due to type uncertainty: ; The first argument is a (VECTOR FIXNUM), not a SIMPLE-ARRAY. ; (DECF (AREF CL-PPCRE::*REPEAT-COUNTERS* CL-PPCRE::REP-NUM)) ; --> LET* SB-IMPL::XSUBTRACT AREF ; ==> ; (SB-KERNEL:HAIRY-DATA-VECTOR-REF ARRAY SB-INT:INDEX) ; ; note: unable to ; avoid runtime dispatch on array element type ; due to type uncertainty: ; The first argument is a (VECTOR FIXNUM), not a SIMPLE-ARRAY. ; --> LET* FUNCALL SB-C::%FUNCALL (SETF AREF) ; ==> ; (SB-KERNEL:HAIRY-DATA-VECTOR-SET ARRAY SB-INT:INDEX SB-C::NEW-VALUE) ; ; note: unable to ; avoid runtime dispatch on array element type ; due to type uncertainty: ; The first argument is a (VECTOR FIXNUM), not a SIMPLE-ARRAY. ; compiling (DEFGENERIC CREATE-NON-GREEDY-MATCHER ...) ; compiling (DEFMETHOD CREATE-NON-GREEDY-MATCHER ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/repetition-closures.lisp ; in: DEFMETHOD CREATE-NON-GREEDY-MATCHER (REPETITION T) ; (SETF (AREF CL-PPCRE::*REPEAT-COUNTERS* CL-PPCRE::REP-NUM) 0 ; (SVREF CL-PPCRE::*LAST-POS-STORES* CL-PPCRE::ZERO-LENGTH-NUM) NIL) ; --> PROGN SETF LET* FUNCALL SB-C::%FUNCALL (SETF AREF) ; ==> ; (SB-KERNEL:HAIRY-DATA-VECTOR-SET ARRAY SB-INT:INDEX SB-C::NEW-VALUE) ; ; note: unable to ; avoid runtime dispatch on array element type ; due to type uncertainty: ; The first argument is a (VECTOR FIXNUM), not a SIMPLE-ARRAY. ; (AREF CL-PPCRE::*REPEAT-COUNTERS* CL-PPCRE::REP-NUM) ; ==> ; (SB-KERNEL:HAIRY-DATA-VECTOR-REF ARRAY SB-INT:INDEX) ; ; note: unable to ; avoid runtime dispatch on array element type ; due to type uncertainty: ; The first argument is a (VECTOR FIXNUM), not a SIMPLE-ARRAY. ; (INCF (AREF CL-PPCRE::*REPEAT-COUNTERS* CL-PPCRE::REP-NUM)) ; --> LET* + AREF ; ==> ; (SB-KERNEL:HAIRY-DATA-VECTOR-REF ARRAY SB-INT:INDEX) ; ; note: unable to ; avoid runtime dispatch on array element type ; due to type uncertainty: ; The first argument is a (VECTOR FIXNUM), not a SIMPLE-ARRAY. ; --> LET* FUNCALL SB-C::%FUNCALL (SETF AREF) ; ==> ; (SB-KERNEL:HAIRY-DATA-VECTOR-SET ARRAY SB-INT:INDEX SB-C::NEW-VALUE) ; ; note: unable to ; avoid runtime dispatch on array element type ; due to type uncertainty: ; The first argument is a (VECTOR FIXNUM), not a SIMPLE-ARRAY. ; (DECF (AREF CL-PPCRE::*REPEAT-COUNTERS* CL-PPCRE::REP-NUM)) ; --> LET* SB-IMPL::XSUBTRACT AREF ; ==> ; (SB-KERNEL:HAIRY-DATA-VECTOR-REF ARRAY SB-INT:INDEX) ; ; note: unable to ; avoid runtime dispatch on array element type ; due to type uncertainty: ; The first argument is a (VECTOR FIXNUM), not a SIMPLE-ARRAY. ; --> LET* FUNCALL SB-C::%FUNCALL (SETF AREF) ; ==> ; (SB-KERNEL:HAIRY-DATA-VECTOR-SET ARRAY SB-INT:INDEX SB-C::NEW-VALUE) ; ; note: unable to ; avoid runtime dispatch on array element type ; due to type uncertainty: ; The first argument is a (VECTOR FIXNUM), not a SIMPLE-ARRAY. ; compiling (DEFMACRO CONSTANT-REPETITION-CONSTANT-LENGTH-CLOSURE ...) ; compiling (DEFGENERIC CREATE-CONSTANT-REPETITION-CONSTANT-LENGTH-MATCHER ...) ; compiling (DEFMETHOD CREATE-CONSTANT-REPETITION-CONSTANT-LENGTH-MATCHER ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/repetition-closures.lisp ; in: ; DEFMETHOD CREATE-CONSTANT-REPETITION-CONSTANT-LENGTH-MATCHER (REPETITION T) ; (CL-PPCRE::INSERT-CHAR-CLASS-TESTER (CL-PPCRE::REGEX ; (SCHAR CL-PPCRE::*STRING* ; CL-PPCRE::CURR-POS)) ; (CL-PPCRE::CONSTANT-REPETITION-CONSTANT-LENGTH-CLOSURE ; (AND (CL-PPCRE::CHAR-CLASS-TEST) (1+ CL-PPCRE::CURR-POS)))) ; --> LET LET CL-PPCRE::CONSTANT-REPETITION-CONSTANT-LENGTH-CLOSURE LAMBDA ; --> FUNCTION LET AND IF AND IF LOOP BLOCK LET SB-LOOP::LOOP-BODY TAGBODY ; --> UNLESS IF AND IF FUNCALL SB-C::%FUNCALL THE ; ==> ; (SB-KERNEL:%COERCE-CALLABLE-TO-FUN #:TEST-FUNCTION969) ; ; note: unable to ; optimize away possible call to FDEFINITION at runtime ; because: ; not known to be a function ; (CHAR-EQUAL CL-PPCRE::CHR (SCHAR CL-PPCRE::*STRING* CL-PPCRE::CURR-POS)) ; ==> ; (SB-INT:TWO-ARG-CHAR-EQUAL CL-PPCRE::CHR ; (SCHAR CL-PPCRE::*STRING* CL-PPCRE::CURR-POS)) ; ; note: unable to ; open code ; due to type uncertainty: ; The first argument is a CHARACTER, not a BASE-CHAR. ; The second argument is a CHARACTER, not a BASE-CHAR. ; (CL-PPCRE::*STRING*-EQUAL CL-PPCRE::STR CL-PPCRE::CURR-POS CL-PPCRE::NEXT-POS ; 0 CL-PPCRE::LEN) ; --> BLOCK LOOP BLOCK LET LET SB-LOOP::LOOP-BODY TAGBODY UNLESS IF CHAR-EQUAL ; ==> ; (SB-INT:TWO-ARG-CHAR-EQUAL (SCHAR CL-PPCRE::*STRING* CL-PPCRE::STRING1-IDX) ; (SCHAR CL-PPCRE::STRING2 CL-PPCRE::STRING2-IDX)) ; ; note: unable to ; open code ; due to type uncertainty: ; The first argument is a CHARACTER, not a BASE-CHAR. ; The second argument is a CHARACTER, not a BASE-CHAR. ; compiling (DEFGENERIC CREATE-CONSTANT-REPETITION-MATCHER ...) ; compiling (DEFMETHOD CREATE-CONSTANT-REPETITION-MATCHER ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/repetition-closures.lisp ; in: DEFMETHOD CREATE-CONSTANT-REPETITION-MATCHER (REPETITION T) ; (SETF (AREF CL-PPCRE::*REPEAT-COUNTERS* CL-PPCRE::REP-NUM) 0) ; --> LET* FUNCALL SB-C::%FUNCALL (SETF AREF) ; ==> ; (SB-KERNEL:HAIRY-DATA-VECTOR-SET ARRAY SB-INT:INDEX SB-C::NEW-VALUE) ; ; note: unable to ; avoid runtime dispatch on array element type ; due to type uncertainty: ; The first argument is a (VECTOR FIXNUM), not a SIMPLE-ARRAY. ; (AREF CL-PPCRE::*REPEAT-COUNTERS* CL-PPCRE::REP-NUM) ; ==> ; (SB-KERNEL:HAIRY-DATA-VECTOR-REF ARRAY SB-INT:INDEX) ; ; note: unable to ; avoid runtime dispatch on array element type ; due to type uncertainty: ; The first argument is a (VECTOR FIXNUM), not a SIMPLE-ARRAY. ; (INCF (AREF CL-PPCRE::*REPEAT-COUNTERS* CL-PPCRE::REP-NUM)) ; --> LET* + AREF ; ==> ; (SB-KERNEL:HAIRY-DATA-VECTOR-REF ARRAY SB-INT:INDEX) ; ; note: unable to ; avoid runtime dispatch on array element type ; due to type uncertainty: ; The first argument is a (VECTOR FIXNUM), not a SIMPLE-ARRAY. ; --> LET* FUNCALL SB-C::%FUNCALL (SETF AREF) ; ==> ; (SB-KERNEL:HAIRY-DATA-VECTOR-SET ARRAY SB-INT:INDEX SB-C::NEW-VALUE) ; ; note: unable to ; avoid runtime dispatch on array element type ; due to type uncertainty: ; The first argument is a (VECTOR FIXNUM), not a SIMPLE-ARRAY. ; (DECF (AREF CL-PPCRE::*REPEAT-COUNTERS* CL-PPCRE::REP-NUM)) ; --> LET* SB-IMPL::XSUBTRACT AREF ; ==> ; (SB-KERNEL:HAIRY-DATA-VECTOR-REF ARRAY SB-INT:INDEX) ; ; note: unable to ; avoid runtime dispatch on array element type ; due to type uncertainty: ; The first argument is a (VECTOR FIXNUM), not a SIMPLE-ARRAY. ; --> LET* FUNCALL SB-C::%FUNCALL (SETF AREF) ; ==> ; (SB-KERNEL:HAIRY-DATA-VECTOR-SET ARRAY SB-INT:INDEX SB-C::NEW-VALUE) ; ; note: unable to ; avoid runtime dispatch on array element type ; due to type uncertainty: ; The first argument is a (VECTOR FIXNUM), not a SIMPLE-ARRAY. ; (SETF (AREF CL-PPCRE::*REPEAT-COUNTERS* CL-PPCRE::REP-NUM) 0 ; (AREF CL-PPCRE::*LAST-POS-STORES* CL-PPCRE::ZERO-LENGTH-NUM) NIL) ; --> PROGN SETF LET* FUNCALL SB-C::%FUNCALL (SETF AREF) ; ==> ; (SB-KERNEL:HAIRY-DATA-VECTOR-SET ARRAY SB-INT:INDEX SB-C::NEW-VALUE) ; ; note: unable to ; avoid runtime dispatch on array element type ; due to type uncertainty: ; The first argument is a (VECTOR FIXNUM), not a SIMPLE-ARRAY. ; (ZEROP (CL-PPCRE::MIN-LEN CL-PPCRE::REPETITION)) ; ==> ; (= (CL-PPCRE::MIN-LEN CL-PPCRE::REPETITION) 0) ; ; note: unable to ; open-code FLOAT to RATIONAL comparison ; due to type uncertainty: ; The first argument is a NUMBER, not a FLOAT. ; ; note: unable to open code because: The operands might not be the same type. ; (AREF CL-PPCRE::*REPEAT-COUNTERS* CL-PPCRE::REP-NUM) ; ==> ; (SB-KERNEL:HAIRY-DATA-VECTOR-REF ARRAY SB-INT:INDEX) ; ; note: unable to ; avoid runtime dispatch on array element type ; due to type uncertainty: ; The first argument is a (VECTOR FIXNUM), not a SIMPLE-ARRAY. ; (INCF (AREF CL-PPCRE::*REPEAT-COUNTERS* CL-PPCRE::REP-NUM)) ; --> LET* + AREF ; ==> ; (SB-KERNEL:HAIRY-DATA-VECTOR-REF ARRAY SB-INT:INDEX) ; ; note: unable to ; avoid runtime dispatch on array element type ; due to type uncertainty: ; The first argument is a (VECTOR FIXNUM), not a SIMPLE-ARRAY. ; --> LET* FUNCALL SB-C::%FUNCALL (SETF AREF) ; ==> ; (SB-KERNEL:HAIRY-DATA-VECTOR-SET ARRAY SB-INT:INDEX SB-C::NEW-VALUE) ; ; note: unable to ; avoid runtime dispatch on array element type ; due to type uncertainty: ; The first argument is a (VECTOR FIXNUM), not a SIMPLE-ARRAY. ; (DECF (AREF CL-PPCRE::*REPEAT-COUNTERS* CL-PPCRE::REP-NUM)) ; --> LET* SB-IMPL::XSUBTRACT AREF ; ==> ; (SB-KERNEL:HAIRY-DATA-VECTOR-REF ARRAY SB-INT:INDEX) ; ; note: unable to ; avoid runtime dispatch on array element type ; due to type uncertainty: ; The first argument is a (VECTOR FIXNUM), not a SIMPLE-ARRAY. ; --> LET* FUNCALL SB-C::%FUNCALL (SETF AREF) ; ==> ; (SB-KERNEL:HAIRY-DATA-VECTOR-SET ARRAY SB-INT:INDEX SB-C::NEW-VALUE) ; ; note: unable to ; avoid runtime dispatch on array element type ; due to type uncertainty: ; The first argument is a (VECTOR FIXNUM), not a SIMPLE-ARRAY. ; compiling (DEFMETHOD CREATE-MATCHER-AUX ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/repetition-closures.lisp ; in: DEFMETHOD CREATE-MATCHER-AUX (REPETITION T) ; (DEFMETHOD CL-PPCRE::CREATE-MATCHER-AUX ; ((CL-PPCRE::REPETITION CL-PPCRE::REPETITION) CL-PPCRE::NEXT-FN) ; (DECLARE ; (OPTIMIZE SPEED (SAFETY 0) (SPACE 0) (DEBUG 1) (COMPILATION-SPEED 0))) ; (WITH-SLOTS (CL-PPCRE::MINIMUM CL-PPCRE::MAXIMUM CL-PPCRE::LEN ; CL-PPCRE::MIN-LEN CL-PPCRE::GREEDYP ; CL-PPCRE::CONTAINS-REGISTER-P) ; CL-PPCRE::REPETITION ; (COND ; ((AND CL-PPCRE::MAXIMUM #) ; (ERROR "Got REPETITION with MAXIMUM 0 (should not happen)")) ; ((AND CL-PPCRE::MAXIMUM #) ; (ERROR ; "Got REPETITION with MAXIMUM 1 and MINIMUM 1 (should not happen)")) ; ((AND # CL-PPCRE::LEN #) ; (CL-PPCRE::CREATE-CONSTANT-REPETITION-CONSTANT-LENGTH-MATCHER ; CL-PPCRE::REPETITION CL-PPCRE::NEXT-FN)) ; ((EQL CL-PPCRE::MINIMUM CL-PPCRE::MAXIMUM) ; (CL-PPCRE::CREATE-CONSTANT-REPETITION-MATCHER CL-PPCRE::REPETITION ; CL-PPCRE::NEXT-FN)) ; ((AND CL-PPCRE::GREEDYP CL-PPCRE::LEN #) ; (CL-PPCRE::CREATE-GREEDY-CONSTANT-LENGTH-MATCHER CL-PPCRE::REPETITION ; CL-PPCRE::NEXT-FN)) ; ((AND CL-PPCRE::GREEDYP #) ; (CL-PPCRE::CREATE-GREEDY-NO-ZERO-MATCHER CL-PPCRE::REPETITION ; CL-PPCRE::NEXT-FN)) ; (CL-PPCRE::GREEDYP ; (CL-PPCRE::CREATE-GREEDY-MATCHER CL-PPCRE::REPETITION ; CL-PPCRE::NEXT-FN)) ; ((AND CL-PPCRE::LEN # #) ; (CL-PPCRE::CREATE-NON-GREEDY-CONSTANT-LENGTH-MATCHER ; CL-PPCRE::REPETITION CL-PPCRE::NEXT-FN)) ; ((OR # #) ; (CL-PPCRE::CREATE-NON-GREEDY-NO-ZERO-MATCHER CL-PPCRE::REPETITION ; CL-PPCRE::NEXT-FN)) ; (T ; (CL-PPCRE::CREATE-NON-GREEDY-MATCHER CL-PPCRE::REPETITION ; CL-PPCRE::NEXT-FN))))) ; --> PROGN EVAL-WHEN SB-PCL::%DEFMETHOD-EXPANDER PROGN SB-PCL::LOAD-DEFMETHOD ; --> SB-PCL::LOAD-DEFMETHOD LIST* LET* SB-INT:NAMED-LAMBDA FUNCTION ; --> SYMBOL-MACROLET SB-PCL::FAST-LEXICAL-METHOD-FUNCTIONS ; --> SB-PCL::BIND-FAST-LEXICAL-METHOD-FUNCTIONS FLET SB-PCL::BIND-ARGS LET* ; --> LOCALLY SYMBOL-MACROLET BLOCK LET SYMBOL-MACROLET IF IF THE ZEROP ; ==> ; (= (SB-PCL::ACCESSOR-SLOT-VALUE #:G1137 'CL-PPCRE::MAXIMUM) 0) ; ; note: unable to ; open-code FLOAT to RATIONAL comparison ; due to type uncertainty: ; The first argument is a NUMBER, not a FLOAT. ; ; note: unable to open code because: The operands might not be the same type. ; --> PROGN EVAL-WHEN SB-PCL::%DEFMETHOD-EXPANDER PROGN SB-PCL::LOAD-DEFMETHOD ; --> SB-PCL::LOAD-DEFMETHOD LIST* LET* SB-INT:NAMED-LAMBDA FUNCTION ; --> SYMBOL-MACROLET SB-PCL::FAST-LEXICAL-METHOD-FUNCTIONS ; --> SB-PCL::BIND-FAST-LEXICAL-METHOD-FUNCTIONS FLET SB-PCL::BIND-ARGS LET* ; --> LOCALLY SYMBOL-MACROLET BLOCK LET SYMBOL-MACROLET IF IF IF THE = ; --> (LAMBDA (#:G1144 #:G1143 #:G1142) (DECLARE (TYPE NUMBER #:G1144 #:G1143 #:G1142)) (IF (= #:G1144 #:G1143) (IF (= #:G1143 #:G1142) T NIL) NIL)) ; --> SB-C::%FUNCALL IF ; ==> ; (= #:G1144 #:G1143) ; ; note: unable to ; open-code FLOAT to RATIONAL comparison ; due to type uncertainty: ; The first argument is a NUMBER, not a FLOAT. ; The second argument is a NUMBER, not a RATIONAL. ; ; note: unable to open code because: The operands might not be the same type. ; --> PROGN EVAL-WHEN SB-PCL::%DEFMETHOD-EXPANDER PROGN SB-PCL::LOAD-DEFMETHOD ; --> SB-PCL::LOAD-DEFMETHOD LIST* LET* SB-INT:NAMED-LAMBDA FUNCTION ; --> SYMBOL-MACROLET SB-PCL::FAST-LEXICAL-METHOD-FUNCTIONS ; --> SB-PCL::BIND-FAST-LEXICAL-METHOD-FUNCTIONS FLET SB-PCL::BIND-ARGS LET* ; --> LOCALLY SYMBOL-MACROLET BLOCK LET SYMBOL-MACROLET IF IF IF THE = ; --> (LAMBDA (#:G1144 #:G1143 #:G1142) (DECLARE (TYPE NUMBER #:G1144 #:G1143 #:G1142)) (IF (= #:G1144 #:G1143) (IF (= #:G1143 #:G1142) T NIL) NIL)) ; --> SB-C::%FUNCALL IF IF ; ==> ; (= #:G1143 #:G1142) ; ; note: unable to ; open-code FLOAT to RATIONAL comparison ; due to type uncertainty: ; The first argument is a NUMBER, not a FLOAT. ; ; note: unable to open code because: The operands might not be the same type. ; --> PROGN EVAL-WHEN SB-PCL::%DEFMETHOD-EXPANDER PROGN SB-PCL::LOAD-DEFMETHOD ; --> SB-PCL::LOAD-DEFMETHOD LIST* LET* SB-INT:NAMED-LAMBDA FUNCTION ; --> SYMBOL-MACROLET SB-PCL::FAST-LEXICAL-METHOD-FUNCTIONS ; --> SB-PCL::BIND-FAST-LEXICAL-METHOD-FUNCTIONS FLET SB-PCL::BIND-ARGS LET* ; --> LOCALLY SYMBOL-MACROLET BLOCK LET SYMBOL-MACROLET IF IF IF IF IF IF IF ; --> THE LET PLUSP > IF ; ==> ; (> (SB-PCL::ACCESSOR-SLOT-VALUE #:G1137 'CL-PPCRE::MIN-LEN) 0) ; ; note: unable to ; open-code FLOAT to RATIONAL comparison ; due to type uncertainty: ; The first argument is a REAL, not a FLOAT. ; --> PROGN EVAL-WHEN SB-PCL::%DEFMETHOD-EXPANDER PROGN SB-PCL::LOAD-DEFMETHOD ; --> SB-PCL::LOAD-DEFMETHOD LIST* LET* SB-INT:NAMED-LAMBDA FUNCTION ; --> SYMBOL-MACROLET SB-PCL::FAST-LEXICAL-METHOD-FUNCTIONS ; --> SB-PCL::BIND-FAST-LEXICAL-METHOD-FUNCTIONS FLET SB-PCL::BIND-ARGS LET* ; --> LOCALLY SYMBOL-MACROLET BLOCK LET SYMBOL-MACROLET IF IF IF IF IF IF IF IF ; --> IF IF PLUSP ; ==> ; (> (SB-PCL::ACCESSOR-SLOT-VALUE #:G1137 'CL-PPCRE::LEN) 0) ; ; note: unable to ; open-code FLOAT to RATIONAL comparison ; due to type uncertainty: ; The first argument is a REAL, not a FLOAT. ; --> PROGN EVAL-WHEN SB-PCL::%DEFMETHOD-EXPANDER PROGN SB-PCL::LOAD-DEFMETHOD ; --> SB-PCL::LOAD-DEFMETHOD LIST* LET* SB-INT:NAMED-LAMBDA FUNCTION ; --> SYMBOL-MACROLET SB-PCL::FAST-LEXICAL-METHOD-FUNCTIONS ; --> SB-PCL::BIND-FAST-LEXICAL-METHOD-FUNCTIONS FLET SB-PCL::BIND-ARGS LET* ; --> LOCALLY SYMBOL-MACROLET BLOCK LET SYMBOL-MACROLET IF IF IF IF IF IF IF IF ; --> IF LET PLUSP > IF ; ==> ; (> (SB-PCL::ACCESSOR-SLOT-VALUE #:G1137 'CL-PPCRE::MIN-LEN) 0) ; ; note: unable to ; open-code FLOAT to RATIONAL comparison ; due to type uncertainty: ; The first argument is a REAL, not a FLOAT. ; --> PROGN EVAL-WHEN SB-PCL::%DEFMETHOD-EXPANDER PROGN SB-PCL::LOAD-DEFMETHOD ; --> SB-PCL::LOAD-DEFMETHOD LIST* LET* SB-INT:NAMED-LAMBDA FUNCTION ; --> SYMBOL-MACROLET SB-PCL::FAST-LEXICAL-METHOD-FUNCTIONS ; --> SB-PCL::BIND-FAST-LEXICAL-METHOD-FUNCTIONS FLET SB-PCL::BIND-ARGS LET* ; --> LOCALLY SYMBOL-MACROLET BLOCK LET SYMBOL-MACROLET IF IF IF THE = ; --> (LAMBDA (#:G1144 #:G1143 #:G1142) (DECLARE (TYPE NUMBER #:G1144 #:G1143 #:G1142)) (IF (= #:G1144 #:G1143) (IF (= #:G1143 #:G1142) T NIL) NIL)) ; --> SB-C::%FUNCALL IF ; ==> ; (= #:G1144 #:G1143) ; ; note: forced to do GENERIC-= (cost 10) ; unable to do inline float comparison (cost 3) because: ; The first argument is a NUMBER, not a DOUBLE-FLOAT. ; The second argument is a NUMBER, not a (COMPLEX DOUBLE-FLOAT). ; unable to do inline float comparison (cost 3) because: ; The first argument is a NUMBER, not a (COMPLEX DOUBLE-FLOAT). ; The second argument is a NUMBER, not a (COMPLEX DOUBLE-FLOAT). ; etc. ; --> PROGN EVAL-WHEN SB-PCL::%DEFMETHOD-EXPANDER PROGN SB-PCL::LOAD-DEFMETHOD ; --> SB-PCL::LOAD-DEFMETHOD LIST* LET* SB-INT:NAMED-LAMBDA FUNCTION ; --> SYMBOL-MACROLET SB-PCL::FAST-LEXICAL-METHOD-FUNCTIONS ; --> SB-PCL::BIND-FAST-LEXICAL-METHOD-FUNCTIONS FLET SB-PCL::BIND-ARGS LET* ; --> LOCALLY SYMBOL-MACROLET BLOCK LET SYMBOL-MACROLET IF IF IF IF ; ==> ; (EQL (SB-PCL::ACCESSOR-SLOT-VALUE #:G1137 'CL-PPCRE::MINIMUM) ; (SB-PCL::ACCESSOR-SLOT-VALUE #:G1137 'CL-PPCRE::MAXIMUM)) ; ; note: forced to do GENERIC-EQL (cost 10) ; unable to do inline float comparison (cost 4) because: ; The first argument is a T, not a DOUBLE-FLOAT. ; The second argument is a T, not a DOUBLE-FLOAT. ; unable to do inline float comparison (cost 4) because: ; The first argument is a T, not a SINGLE-FLOAT. ; The second argument is a T, not a SINGLE-FLOAT. ; etc. ; ; note: forced to do GENERIC-EQL (cost 10) ; unable to do inline float comparison (cost 4) because: ; The first argument is a T, not a DOUBLE-FLOAT. ; The second argument is a T, not a DOUBLE-FLOAT. ; unable to do inline float comparison (cost 4) because: ; The first argument is a T, not a SINGLE-FLOAT. ; The second argument is a T, not a SINGLE-FLOAT. ; etc. ; --> PROGN EVAL-WHEN SB-PCL::%DEFMETHOD-EXPANDER PROGN SB-PCL::LOAD-DEFMETHOD ; --> SB-PCL::LOAD-DEFMETHOD LIST* LET* SB-INT:NAMED-LAMBDA FUNCTION ; --> SYMBOL-MACROLET SB-PCL::FAST-LEXICAL-METHOD-FUNCTIONS ; --> SB-PCL::BIND-FAST-LEXICAL-METHOD-FUNCTIONS FLET SB-PCL::BIND-ARGS LET* ; --> LOCALLY SYMBOL-MACROLET BLOCK LET SYMBOL-MACROLET IF IF IF IF IF IF IF ; --> THE LET PLUSP > IF ; ==> ; (> (SB-PCL::ACCESSOR-SLOT-VALUE #:G1137 'CL-PPCRE::MIN-LEN) 0) ; ; note: forced to do GENERIC-> (cost 10) ; unable to do inline fixnum comparison (cost 3) because: ; The first argument is a REAL, not a FIXNUM. ; unable to do inline fixnum comparison (cost 4) because: ; The first argument is a REAL, not a FIXNUM. ; etc. ; --> PROGN EVAL-WHEN SB-PCL::%DEFMETHOD-EXPANDER PROGN SB-PCL::LOAD-DEFMETHOD ; --> SB-PCL::LOAD-DEFMETHOD LIST* LET* SB-INT:NAMED-LAMBDA FUNCTION ; --> SYMBOL-MACROLET SB-PCL::FAST-LEXICAL-METHOD-FUNCTIONS ; --> SB-PCL::BIND-FAST-LEXICAL-METHOD-FUNCTIONS FLET SB-PCL::BIND-ARGS LET* ; --> LOCALLY SYMBOL-MACROLET BLOCK LET SYMBOL-MACROLET IF IF IF IF IF IF IF IF ; --> IF IF PLUSP ; ==> ; (> (SB-PCL::ACCESSOR-SLOT-VALUE #:G1137 'CL-PPCRE::LEN) 0) ; ; note: forced to do GENERIC-> (cost 10) ; unable to do inline fixnum comparison (cost 3) because: ; The first argument is a REAL, not a FIXNUM. ; unable to do inline fixnum comparison (cost 4) because: ; The first argument is a REAL, not a FIXNUM. ; etc. ; --> PROGN EVAL-WHEN SB-PCL::%DEFMETHOD-EXPANDER PROGN SB-PCL::LOAD-DEFMETHOD ; --> SB-PCL::LOAD-DEFMETHOD LIST* LET* SB-INT:NAMED-LAMBDA FUNCTION ; --> SYMBOL-MACROLET SB-PCL::FAST-LEXICAL-METHOD-FUNCTIONS ; --> SB-PCL::BIND-FAST-LEXICAL-METHOD-FUNCTIONS FLET SB-PCL::BIND-ARGS LET* ; --> LOCALLY SYMBOL-MACROLET BLOCK LET SYMBOL-MACROLET IF IF IF IF IF IF IF IF ; --> IF LET PLUSP > IF ; ==> ; (> (SB-PCL::ACCESSOR-SLOT-VALUE #:G1137 'CL-PPCRE::MIN-LEN) 0) ; ; note: forced to do GENERIC-> (cost 10) ; unable to do inline fixnum comparison (cost 3) because: ; The first argument is a REAL, not a FIXNUM. ; unable to do inline fixnum comparison (cost 4) because: ; The first argument is a REAL, not a FIXNUM. ; etc. ; /wrkdirs/textproc/cl-ppcre-sbcl/cl-ppcre-2.0.3/repetition-closures-TMP.fasl written ; compilation finished in 0:00:00.457 ; compiling file "/usr/local/lib/common-lisp/cl-ppcre/scanner.lisp" (written 25 JUL 2016 01:40:59 AM): ; compiling (IN-PACKAGE :CL-PPCRE) ; compiling (DEFMACRO BMH-MATCHER-AUX ...) ; compiling (DEFUN CREATE-BMH-MATCHER ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/scanner.lisp ; in: DEFUN CREATE-BMH-MATCHER ; (CL-PPCRE::BMH-MATCHER-AUX :CASE-INSENSITIVE-P T) ; --> LAMBDA FUNCTION IF LOOP BLOCK LET SB-LOOP::LOOP-BODY TAGBODY LOOP BLOCK ; --> LET LET SB-LOOP::LOOP-BODY TAGBODY UNLESS IF AND IF AND THE CHAR-EQUAL ; ==> ; (SB-INT:TWO-ARG-CHAR-EQUAL (SCHAR CL-PPCRE::*STRING* CL-PPCRE::I) ; (SCHAR CL-PPCRE::PATTERN CL-PPCRE::J)) ; ; note: unable to ; open code ; due to type uncertainty: ; The first argument is a CHARACTER, not a BASE-CHAR. ; The second argument is a CHARACTER, not a BASE-CHAR. ; (LENGTH CL-PPCRE::PATTERN) ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a (SIMPLE-ARRAY * (*)). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a VECTOR. ; (CHAR-UPCASE (SCHAR CL-PPCRE::PATTERN CL-PPCRE::K)) ; ; note: unable to ; open code ; due to type uncertainty: ; The first argument is a CHARACTER, not a BASE-CHAR. ; (CHAR-DOWNCASE (SCHAR CL-PPCRE::PATTERN CL-PPCRE::K)) ; ; note: unable to ; open code ; due to type uncertainty: ; The first argument is a CHARACTER, not a BASE-CHAR. ; (SEARCH CL-PPCRE::PATTERN CL-PPCRE::*STRING* :START2 CL-PPCRE::START-POS ; :END2 CL-PPCRE::*END-POS* :TEST CL-PPCRE::TEST) ; ; note: unable to ; open code ; due to type uncertainty: ; The first argument is a SEQUENCE, not a VECTOR. ; (MAKE-ARRAY CL-PPCRE:*REGEX-CHAR-CODE-LIMIT* :ELEMENT-TYPE 'FIXNUM ; :INITIAL-ELEMENT CL-PPCRE::M) ; --> LOCALLY MAKE-ARRAY TRULY-THE FILL LET* ; ==> ; (SB-KERNEL:UB64-BASH-FILL ; (LET* ((SB-C::BITS (LDB # #)) (SB-C::RES SB-C::BITS)) ; (DECLARE (TYPE WORD SB-C::RES)) ; SB-C::RES) ; SB-C::SEQ (SB-KERNEL:%CHECK-BOUND SB-C::SEQ SB-C::BOUND SB-C::START) ; (- ; (IF SB-C::END ; (SB-KERNEL:%CHECK-BOUND SB-C::SEQ SB-C::BOUND SB-C::END) ; SB-C::LEN) ; SB-C::START)) ; ; note: doing signed word to integer coercion (cost 20) ; compiling (DEFMACRO CHAR-SEARCHER-AUX ...) ; compiling (DEFUN CREATE-CHAR-SEARCHER ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/scanner.lisp ; in: DEFUN CREATE-CHAR-SEARCHER ; (CL-PPCRE::CHAR-SEARCHER-AUX :CASE-INSENSITIVE-P T) ; --> LAMBDA FUNCTION AND IF AND THE LOOP BLOCK LET LET SB-LOOP::LOOP-BODY ; --> TAGBODY WHEN IF SETQ THE AND IF CHAR-EQUAL ; ==> ; (SB-INT:TWO-ARG-CHAR-EQUAL (SCHAR CL-PPCRE::*STRING* CL-PPCRE::I) ; CL-PPCRE::CHR) ; ; note: unable to ; open code ; due to type uncertainty: ; The first argument is a CHARACTER, not a BASE-CHAR. ; The second argument is a CHARACTER, not a BASE-CHAR. ; compiling (DECLAIM (INLINE NEWLINE-SKIPPER)) ; compiling (DEFUN NEWLINE-SKIPPER ...) ; compiling (DEFMACRO INSERT-ADVANCE-FN ...) ; compiling (DEFUN CREATE-SCANNER-AUX ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/scanner.lisp ; in: DEFUN CREATE-SCANNER-AUX ; (CL-PPCRE::INSERT-ADVANCE-FN ; (CL-PPCRE::ADVANCE-FN (CL-PPCRE::POS) CL-PPCRE::POS)) ; --> LAMBDA FUNCTION BLOCK LET* LABELS COND IF PROGN WHEN IF LOCALLY COND IF ; --> AND IF AND THE NOT IF CL-PPCRE::*STRING*-EQUAL BLOCK LOOP BLOCK LET LET ; --> SB-LOOP::LOOP-BODY TAGBODY UNLESS IF CHAR-EQUAL ; ==> ; (SB-INT:TWO-ARG-CHAR-EQUAL (SCHAR CL-PPCRE::*STRING* CL-PPCRE::STRING1-IDX) ; (SCHAR CL-PPCRE::STRING2 CL-PPCRE::STRING2-IDX)) ; ; note: unable to ; open code ; due to type uncertainty: ; The first argument is a CHARACTER, not a BASE-CHAR. ; The second argument is a CHARACTER, not a BASE-CHAR. ; --> LAMBDA FUNCTION BLOCK LET* LABELS COND IF PROGN WHEN IF BLOCK LOOP BLOCK ; --> TAGBODY PROGN LET COND IF COND IF AND IF AND THE ; ==> ; (< (+ CL-PPCRE::*END-STRING-POS* CL-PPCRE::END-STRING-LEN) ; CL-PPCRE::*END-POS*) ; ; note: unable to ; open-code FLOAT to RATIONAL comparison ; due to type uncertainty: ; The first argument is a REAL, not a FLOAT. ; --> LAMBDA FUNCTION BLOCK LET* LABELS COND IF PROGN WHEN IF BLOCK LOOP BLOCK ; --> TAGBODY PROGN LET COND IF COND IF PROGN INCF SETQ THE ; ==> ; (+ 1 CL-PPCRE::*END-STRING-POS*) ; ; note: unable to ; associate +/+ of constants ; due to type uncertainty: ; The first argument is a NUMBER, not a RATIONAL. ; ; note: unable to ; associate +/- of constants ; due to type uncertainty: ; The first argument is a NUMBER, not a RATIONAL. ; (CL-PPCRE::INSERT-ADVANCE-FN ; (CL-PPCRE::ADVANCE-FN (CL-PPCRE::POS) ; (DECLARE (FUNCTION CL-PPCRE::END-STRING-TEST)) ; (IF (<= (THE FIXNUM CL-PPCRE::POS) (THE FIXNUM CL-PPCRE::*END-STRING-POS*)) ; (RETURN-FROM CL-PPCRE::ADVANCE-FN CL-PPCRE::POS)) ; (UNLESS (SETQ CL-PPCRE::*END-STRING-POS* #) ; (RETURN-FROM CL-PPCRE:SCAN NIL)) ; CL-PPCRE::POS)) ; --> LAMBDA FUNCTION BLOCK LET* LABELS COND IF PROGN WHEN IF LOCALLY COND IF ; --> AND IF AND THE NOT IF CL-PPCRE::*STRING*-EQUAL BLOCK LOOP BLOCK LET LET ; --> SB-LOOP::LOOP-BODY TAGBODY UNLESS IF CHAR-EQUAL ; ==> ; (SB-INT:TWO-ARG-CHAR-EQUAL (SCHAR CL-PPCRE::*STRING* CL-PPCRE::STRING1-IDX) ; (SCHAR CL-PPCRE::STRING2 CL-PPCRE::STRING2-IDX)) ; ; note: unable to ; open code ; due to type uncertainty: ; The first argument is a CHARACTER, not a BASE-CHAR. ; The second argument is a CHARACTER, not a BASE-CHAR. ; --> LAMBDA FUNCTION BLOCK LET* LABELS COND IF PROGN WHEN IF BLOCK LOOP BLOCK ; --> TAGBODY PROGN LET COND IF COND IF AND IF AND THE ; ==> ; (< (+ CL-PPCRE::*END-STRING-POS* CL-PPCRE::END-STRING-LEN) ; CL-PPCRE::*END-POS*) ; ; note: unable to ; open-code FLOAT to RATIONAL comparison ; due to type uncertainty: ; The first argument is a REAL, not a FLOAT. ; --> LAMBDA FUNCTION BLOCK LET* LABELS COND IF PROGN WHEN IF BLOCK LOOP BLOCK ; --> TAGBODY PROGN LET COND IF COND IF PROGN INCF SETQ THE ; ==> ; (+ 1 CL-PPCRE::*END-STRING-POS*) ; ; note: unable to ; associate +/+ of constants ; due to type uncertainty: ; The first argument is a NUMBER, not a RATIONAL. ; ; note: unable to ; associate +/- of constants ; due to type uncertainty: ; The first argument is a NUMBER, not a RATIONAL. ; (CL-PPCRE::INSERT-ADVANCE-FN ; (CL-PPCRE::ADVANCE-FN (CL-PPCRE::POS) ; (UNLESS (SETQ CL-PPCRE::POS #) (RETURN-FROM CL-PPCRE:SCAN NIL)) ; CL-PPCRE::POS)) ; --> LAMBDA FUNCTION BLOCK LET* LABELS COND IF PROGN WHEN IF LOCALLY COND IF ; --> AND IF AND THE NOT IF CL-PPCRE::*STRING*-EQUAL BLOCK LOOP BLOCK LET LET ; --> SB-LOOP::LOOP-BODY TAGBODY UNLESS IF CHAR-EQUAL ; ==> ; (SB-INT:TWO-ARG-CHAR-EQUAL (SCHAR CL-PPCRE::*STRING* CL-PPCRE::STRING1-IDX) ; (SCHAR CL-PPCRE::STRING2 CL-PPCRE::STRING2-IDX)) ; ; note: unable to ; open code ; due to type uncertainty: ; The first argument is a CHARACTER, not a BASE-CHAR. ; The second argument is a CHARACTER, not a BASE-CHAR. ; --> LAMBDA FUNCTION BLOCK LET* LABELS COND IF PROGN WHEN IF BLOCK LOOP BLOCK ; --> TAGBODY PROGN LET COND IF COND IF AND IF AND THE ; ==> ; (< (+ CL-PPCRE::*END-STRING-POS* CL-PPCRE::END-STRING-LEN) ; CL-PPCRE::*END-POS*) ; ; note: unable to ; open-code FLOAT to RATIONAL comparison ; due to type uncertainty: ; The first argument is a REAL, not a FLOAT. ; --> LAMBDA FUNCTION BLOCK LET* LABELS COND IF PROGN WHEN IF BLOCK LOOP BLOCK ; --> TAGBODY PROGN LET COND IF COND IF PROGN INCF SETQ THE ; ==> ; (+ 1 CL-PPCRE::*END-STRING-POS*) ; ; note: unable to ; associate +/+ of constants ; due to type uncertainty: ; The first argument is a NUMBER, not a RATIONAL. ; ; note: unable to ; associate +/- of constants ; due to type uncertainty: ; The first argument is a NUMBER, not a RATIONAL. ; (CL-PPCRE::INSERT-ADVANCE-FN ; (CL-PPCRE::ADVANCE-FN (CL-PPCRE::POS) ; (DECLARE (FUNCTION CL-PPCRE::START-STRING-TEST)) ; (UNLESS (SETQ CL-PPCRE::POS #) (RETURN-FROM CL-PPCRE:SCAN NIL)) ; CL-PPCRE::POS)) ; --> LAMBDA FUNCTION BLOCK LET* LABELS COND IF PROGN WHEN IF LOCALLY COND IF ; --> AND IF AND THE NOT IF CL-PPCRE::*STRING*-EQUAL BLOCK LOOP BLOCK LET LET ; --> SB-LOOP::LOOP-BODY TAGBODY UNLESS IF CHAR-EQUAL ; ==> ; (SB-INT:TWO-ARG-CHAR-EQUAL (SCHAR CL-PPCRE::*STRING* CL-PPCRE::STRING1-IDX) ; (SCHAR CL-PPCRE::STRING2 CL-PPCRE::STRING2-IDX)) ; ; note: unable to ; open code ; due to type uncertainty: ; The first argument is a CHARACTER, not a BASE-CHAR. ; The second argument is a CHARACTER, not a BASE-CHAR. ; --> LAMBDA FUNCTION BLOCK LET* LABELS COND IF PROGN WHEN IF BLOCK LOOP BLOCK ; --> TAGBODY PROGN LET COND IF COND IF AND IF AND THE ; ==> ; (< (+ CL-PPCRE::*END-STRING-POS* CL-PPCRE::END-STRING-LEN) ; CL-PPCRE::*END-POS*) ; ; note: unable to ; open-code FLOAT to RATIONAL comparison ; due to type uncertainty: ; The first argument is a REAL, not a FLOAT. ; --> LAMBDA FUNCTION BLOCK LET* LABELS COND IF PROGN WHEN IF BLOCK LOOP BLOCK ; --> TAGBODY PROGN LET COND IF COND IF PROGN INCF SETQ THE ; ==> ; (+ 1 CL-PPCRE::*END-STRING-POS*) ; ; note: unable to ; associate +/+ of constants ; due to type uncertainty: ; The first argument is a NUMBER, not a RATIONAL. ; ; note: unable to ; associate +/- of constants ; due to type uncertainty: ; The first argument is a NUMBER, not a RATIONAL. ; (CL-PPCRE::INSERT-ADVANCE-FN ; (CL-PPCRE::ADVANCE-FN (CL-PPCRE::POS) ; (DECLARE (FUNCTION CL-PPCRE::END-STRING-TEST)) ; (UNLESS (SETQ CL-PPCRE::POS #) (RETURN-FROM CL-PPCRE:SCAN NIL)) ; (IF (<= (THE FIXNUM CL-PPCRE::POS) (THE FIXNUM CL-PPCRE::*END-STRING-POS*)) ; (RETURN-FROM CL-PPCRE::ADVANCE-FN CL-PPCRE::POS)) ; (UNLESS (SETQ CL-PPCRE::*END-STRING-POS* #) ; (RETURN-FROM CL-PPCRE:SCAN NIL)) ; CL-PPCRE::POS)) ; --> LAMBDA FUNCTION BLOCK LET* LABELS COND IF PROGN WHEN IF LOCALLY COND IF ; --> AND IF AND THE NOT IF CL-PPCRE::*STRING*-EQUAL BLOCK LOOP BLOCK LET LET ; --> SB-LOOP::LOOP-BODY TAGBODY UNLESS IF CHAR-EQUAL ; ==> ; (SB-INT:TWO-ARG-CHAR-EQUAL (SCHAR CL-PPCRE::*STRING* CL-PPCRE::STRING1-IDX) ; (SCHAR CL-PPCRE::STRING2 CL-PPCRE::STRING2-IDX)) ; ; note: unable to ; open code ; due to type uncertainty: ; The first argument is a CHARACTER, not a BASE-CHAR. ; The second argument is a CHARACTER, not a BASE-CHAR. ; --> LAMBDA FUNCTION BLOCK LET* LABELS COND IF PROGN WHEN IF BLOCK LOOP BLOCK ; --> TAGBODY PROGN LET COND IF COND IF AND IF AND THE ; ==> ; (< (+ CL-PPCRE::*END-STRING-POS* CL-PPCRE::END-STRING-LEN) ; CL-PPCRE::*END-POS*) ; ; note: unable to ; open-code FLOAT to RATIONAL comparison ; due to type uncertainty: ; The first argument is a REAL, not a FLOAT. ; --> LAMBDA FUNCTION BLOCK LET* LABELS COND IF PROGN WHEN IF BLOCK LOOP BLOCK ; --> TAGBODY PROGN LET COND IF COND IF PROGN INCF SETQ THE ; ==> ; (+ 1 CL-PPCRE::*END-STRING-POS*) ; ; note: unable to ; associate +/+ of constants ; due to type uncertainty: ; The first argument is a NUMBER, not a RATIONAL. ; ; note: unable to ; associate +/- of constants ; due to type uncertainty: ; The first argument is a NUMBER, not a RATIONAL. ; (CL-PPCRE::INSERT-ADVANCE-FN ; (CL-PPCRE::ADVANCE-FN (CL-PPCRE::POS) ; (DECLARE (FUNCTION CL-PPCRE::START-STRING-TEST CL-PPCRE::END-STRING-TEST)) ; (UNLESS (SETQ CL-PPCRE::POS #) (RETURN-FROM CL-PPCRE:SCAN NIL)) ; (IF (<= (THE FIXNUM CL-PPCRE::POS) (THE FIXNUM CL-PPCRE::*END-STRING-POS*)) ; (RETURN-FROM CL-PPCRE::ADVANCE-FN CL-PPCRE::POS)) ; (UNLESS (SETQ CL-PPCRE::*END-STRING-POS* #) ; (RETURN-FROM CL-PPCRE:SCAN NIL)) ; CL-PPCRE::POS)) ; --> LAMBDA FUNCTION BLOCK LET* LABELS COND IF PROGN WHEN IF LOCALLY COND IF ; --> AND IF AND THE NOT IF CL-PPCRE::*STRING*-EQUAL BLOCK LOOP BLOCK LET LET ; --> SB-LOOP::LOOP-BODY TAGBODY UNLESS IF CHAR-EQUAL ; ==> ; (SB-INT:TWO-ARG-CHAR-EQUAL (SCHAR CL-PPCRE::*STRING* CL-PPCRE::STRING1-IDX) ; (SCHAR CL-PPCRE::STRING2 CL-PPCRE::STRING2-IDX)) ; ; note: unable to ; open code ; due to type uncertainty: ; The first argument is a CHARACTER, not a BASE-CHAR. ; The second argument is a CHARACTER, not a BASE-CHAR. ; --> LAMBDA FUNCTION BLOCK LET* LABELS COND IF PROGN WHEN IF BLOCK LOOP BLOCK ; --> TAGBODY PROGN LET COND IF COND IF AND IF AND THE ; ==> ; (< (+ CL-PPCRE::*END-STRING-POS* CL-PPCRE::END-STRING-LEN) ; CL-PPCRE::*END-POS*) ; ; note: unable to ; open-code FLOAT to RATIONAL comparison ; due to type uncertainty: ; The first argument is a REAL, not a FLOAT. ; --> LAMBDA FUNCTION BLOCK LET* LABELS COND IF PROGN WHEN IF BLOCK LOOP BLOCK ; --> TAGBODY PROGN LET COND IF COND IF PROGN INCF SETQ THE ; ==> ; (+ 1 CL-PPCRE::*END-STRING-POS*) ; ; note: unable to ; associate +/+ of constants ; due to type uncertainty: ; The first argument is a NUMBER, not a RATIONAL. ; ; note: unable to ; associate +/- of constants ; due to type uncertainty: ; The first argument is a NUMBER, not a RATIONAL. ; (CL-PPCRE::INSERT-ADVANCE-FN ; (CL-PPCRE::ADVANCE-FN (CL-PPCRE::POS) ; (DECLARE (FIXNUM CL-PPCRE::END-STRING-OFFSET) ; (FUNCTION CL-PPCRE::END-STRING-TEST)) ; (LOOP (UNLESS (SETQ #) (RETURN-FROM CL-PPCRE:SCAN NIL)) ; (LOCALLY ; (DECLARE #) ; (WHEN # #) ; (LET # ; #))))) ; --> LAMBDA FUNCTION BLOCK LET* LABELS COND IF PROGN WHEN IF LOCALLY COND IF ; --> AND IF AND THE NOT IF CL-PPCRE::*STRING*-EQUAL BLOCK LOOP BLOCK LET LET ; --> SB-LOOP::LOOP-BODY TAGBODY UNLESS IF CHAR-EQUAL ; ==> ; (SB-INT:TWO-ARG-CHAR-EQUAL (SCHAR CL-PPCRE::*STRING* CL-PPCRE::STRING1-IDX) ; (SCHAR CL-PPCRE::STRING2 CL-PPCRE::STRING2-IDX)) ; ; note: unable to ; open code ; due to type uncertainty: ; The first argument is a CHARACTER, not a BASE-CHAR. ; The second argument is a CHARACTER, not a BASE-CHAR. ; --> LAMBDA FUNCTION BLOCK LET* LABELS COND IF PROGN WHEN IF BLOCK LOOP BLOCK ; --> TAGBODY PROGN LET COND IF COND IF AND IF AND THE ; ==> ; (< (+ CL-PPCRE::*END-STRING-POS* CL-PPCRE::END-STRING-LEN) ; CL-PPCRE::*END-POS*) ; ; note: unable to ; open-code FLOAT to RATIONAL comparison ; due to type uncertainty: ; The first argument is a REAL, not a FLOAT. ; --> LAMBDA FUNCTION BLOCK LET* LABELS COND IF PROGN WHEN IF BLOCK LOOP BLOCK ; --> TAGBODY PROGN LET COND IF COND IF PROGN INCF SETQ THE ; ==> ; (+ 1 CL-PPCRE::*END-STRING-POS*) ; ; note: unable to ; associate +/+ of constants ; due to type uncertainty: ; The first argument is a NUMBER, not a RATIONAL. ; ; note: unable to ; associate +/- of constants ; due to type uncertainty: ; The first argument is a NUMBER, not a RATIONAL. ; (CL-PPCRE::INSERT-ADVANCE-FN ; (CL-PPCRE::ADVANCE-FN (CL-PPCRE::POS) ; (DECLARE (FIXNUM CL-PPCRE::END-STRING-OFFSET CL-PPCRE::STARTS-WITH-LEN) ; (FUNCTION CL-PPCRE::START-STRING-TEST CL-PPCRE::END-STRING-TEST)) ; (LOOP (UNLESS (SETQ #) (RETURN-FROM CL-PPCRE:SCAN NIL)) ; (LOCALLY ; (DECLARE #) ; (WHEN # #) ; (LET # ; #))))) ; --> LAMBDA FUNCTION BLOCK LET* LABELS COND IF PROGN WHEN IF LOCALLY COND IF ; --> AND IF AND THE NOT IF CL-PPCRE::*STRING*-EQUAL BLOCK LOOP BLOCK LET LET ; --> SB-LOOP::LOOP-BODY TAGBODY UNLESS IF CHAR-EQUAL ; ==> ; (SB-INT:TWO-ARG-CHAR-EQUAL (SCHAR CL-PPCRE::*STRING* CL-PPCRE::STRING1-IDX) ; (SCHAR CL-PPCRE::STRING2 CL-PPCRE::STRING2-IDX)) ; ; note: unable to ; open code ; due to type uncertainty: ; The first argument is a CHARACTER, not a BASE-CHAR. ; The second argument is a CHARACTER, not a BASE-CHAR. ; --> LAMBDA FUNCTION BLOCK LET* LABELS COND IF PROGN WHEN IF BLOCK LOOP BLOCK ; --> TAGBODY PROGN LET COND IF COND IF AND IF AND THE ; ==> ; (< (+ CL-PPCRE::*END-STRING-POS* CL-PPCRE::END-STRING-LEN) ; CL-PPCRE::*END-POS*) ; ; note: unable to ; open-code FLOAT to RATIONAL comparison ; due to type uncertainty: ; The first argument is a REAL, not a FLOAT. ; --> LAMBDA FUNCTION BLOCK LET* LABELS COND IF PROGN WHEN IF BLOCK LOOP BLOCK ; --> TAGBODY PROGN LET COND IF COND IF PROGN INCF SETQ THE ; ==> ; (+ 1 CL-PPCRE::*END-STRING-POS*) ; ; note: unable to ; associate +/+ of constants ; due to type uncertainty: ; The first argument is a NUMBER, not a RATIONAL. ; ; note: unable to ; associate +/- of constants ; due to type uncertainty: ; The first argument is a NUMBER, not a RATIONAL. ; (CL-PPCRE::INSERT-ADVANCE-FN ; (CL-PPCRE::ADVANCE-FN (CL-PPCRE::POS) ; (DECLARE (FUNCTION CL-PPCRE::END-STRING-TEST)) ; (IF (<= (THE FIXNUM CL-PPCRE::POS) (THE FIXNUM CL-PPCRE::*END-STRING-POS*)) ; (RETURN-FROM CL-PPCRE::ADVANCE-FN CL-PPCRE::POS)) ; (UNLESS (SETQ CL-PPCRE::*END-STRING-POS* #) ; (RETURN-FROM CL-PPCRE:SCAN NIL)) ; CL-PPCRE::POS)) ; --> LAMBDA FUNCTION BLOCK LET* LABELS WHEN IF PROGN UNLESS IF AND IF AND THE ; --> <= OR LET IF OR THE = IF ; ==> ; (= SB-C::X SB-C::Y) ; ; note: unable to open code because: The operands might not be the same type. ; (CL-PPCRE::INSERT-ADVANCE-FN ; (CL-PPCRE::ADVANCE-FN (CL-PPCRE::POS) ; (UNLESS (SETQ CL-PPCRE::POS #) (RETURN-FROM CL-PPCRE:SCAN NIL)) ; CL-PPCRE::POS)) ; --> LAMBDA FUNCTION BLOCK LET* LABELS WHEN IF PROGN UNLESS IF AND IF AND THE ; --> <= OR LET IF OR THE = IF ; ==> ; (= SB-C::X SB-C::Y) ; ; note: unable to open code because: The operands might not be the same type. ; (CL-PPCRE::INSERT-ADVANCE-FN ; (CL-PPCRE::ADVANCE-FN (CL-PPCRE::POS) ; (DECLARE (FUNCTION CL-PPCRE::START-STRING-TEST)) ; (UNLESS (SETQ CL-PPCRE::POS #) (RETURN-FROM CL-PPCRE:SCAN NIL)) ; CL-PPCRE::POS)) ; --> LAMBDA FUNCTION BLOCK LET* LABELS WHEN IF PROGN UNLESS IF AND IF AND THE ; --> <= OR LET IF OR THE = IF ; ==> ; (= SB-C::X SB-C::Y) ; ; note: unable to open code because: The operands might not be the same type. ; (CL-PPCRE::INSERT-ADVANCE-FN ; (CL-PPCRE::ADVANCE-FN (CL-PPCRE::POS) ; (DECLARE (FUNCTION CL-PPCRE::END-STRING-TEST)) ; (UNLESS (SETQ CL-PPCRE::POS #) (RETURN-FROM CL-PPCRE:SCAN NIL)) ; (IF (<= (THE FIXNUM CL-PPCRE::POS) (THE FIXNUM CL-PPCRE::*END-STRING-POS*)) ; (RETURN-FROM CL-PPCRE::ADVANCE-FN CL-PPCRE::POS)) ; (UNLESS (SETQ CL-PPCRE::*END-STRING-POS* #) ; (RETURN-FROM CL-PPCRE:SCAN NIL)) ; CL-PPCRE::POS)) ; --> LAMBDA FUNCTION BLOCK LET* LABELS WHEN IF PROGN UNLESS IF AND IF AND THE ; --> <= OR LET IF OR THE = IF ; ==> ; (= SB-C::X SB-C::Y) ; ; note: unable to open code because: The operands might not be the same type. ; (CL-PPCRE::INSERT-ADVANCE-FN ; (CL-PPCRE::ADVANCE-FN (CL-PPCRE::POS) ; (DECLARE (FUNCTION CL-PPCRE::START-STRING-TEST CL-PPCRE::END-STRING-TEST)) ; (UNLESS (SETQ CL-PPCRE::POS #) (RETURN-FROM CL-PPCRE:SCAN NIL)) ; (IF (<= (THE FIXNUM CL-PPCRE::POS) (THE FIXNUM CL-PPCRE::*END-STRING-POS*)) ; (RETURN-FROM CL-PPCRE::ADVANCE-FN CL-PPCRE::POS)) ; (UNLESS (SETQ CL-PPCRE::*END-STRING-POS* #) ; (RETURN-FROM CL-PPCRE:SCAN NIL)) ; CL-PPCRE::POS)) ; --> LAMBDA FUNCTION BLOCK LET* LABELS WHEN IF PROGN UNLESS IF AND IF AND THE ; --> <= OR LET IF OR THE = IF ; ==> ; (= SB-C::X SB-C::Y) ; ; note: unable to open code because: The operands might not be the same type. ; (CL-PPCRE::INSERT-ADVANCE-FN ; (CL-PPCRE::ADVANCE-FN (CL-PPCRE::POS) ; (DECLARE (FIXNUM CL-PPCRE::END-STRING-OFFSET) ; (FUNCTION CL-PPCRE::END-STRING-TEST)) ; (LOOP (UNLESS (SETQ #) (RETURN-FROM CL-PPCRE:SCAN NIL)) ; (LOCALLY ; (DECLARE #) ; (WHEN # #) ; (LET # ; #))))) ; --> LAMBDA FUNCTION BLOCK LET* LABELS WHEN IF PROGN UNLESS IF AND IF AND THE ; --> <= OR LET IF OR THE = IF ; ==> ; (= SB-C::X SB-C::Y) ; ; note: unable to open code because: The operands might not be the same type. ; (CL-PPCRE::INSERT-ADVANCE-FN ; (CL-PPCRE::ADVANCE-FN (CL-PPCRE::POS) ; (DECLARE (FIXNUM CL-PPCRE::END-STRING-OFFSET CL-PPCRE::STARTS-WITH-LEN) ; (FUNCTION CL-PPCRE::START-STRING-TEST CL-PPCRE::END-STRING-TEST)) ; (LOOP (UNLESS (SETQ #) (RETURN-FROM CL-PPCRE:SCAN NIL)) ; (LOCALLY ; (DECLARE #) ; (WHEN # #) ; (LET # ; #))))) ; --> LAMBDA FUNCTION BLOCK LET* LABELS WHEN IF PROGN UNLESS IF AND IF AND THE ; --> <= OR LET IF OR THE = IF ; ==> ; (= SB-C::X SB-C::Y) ; ; note: unable to open code because: The operands might not be the same type. ; (CL-PPCRE::INSERT-ADVANCE-FN ; (CL-PPCRE::ADVANCE-FN (CL-PPCRE::POS) CL-PPCRE::POS)) ; --> LAMBDA FUNCTION BLOCK LET* LABELS WHEN IF PROGN UNLESS IF AND IF AND THE ; --> <= OR LET IF OR THE = IF ; ==> ; (= SB-C::X SB-C::Y) ; ; note: unable to open code because: The operands might not be the same type. ; --> LAMBDA FUNCTION BLOCK LET* LABELS WHEN IF PROGN UNLESS IF AND IF AND THE ; --> <= OR LET < IF ; ==> ; (< SB-C::X SB-C::Y) ; ; note: forced to do GENERIC-< (cost 10) ; unable to do inline fixnum comparison (cost 4) because: ; The second argument is a REAL, not a FIXNUM. ; --> LAMBDA FUNCTION BLOCK LET* LABELS COND IF PROGN WHEN IF BLOCK LOOP BLOCK ; --> TAGBODY PROGN LET COND IF COND IF AND IF AND THE < ; ==> ; (+ CL-PPCRE::*END-STRING-POS* CL-PPCRE::END-STRING-LEN) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline float arithmetic (cost 2) because: ; The first argument is a NUMBER, not a DOUBLE-FLOAT. ; The second argument is a NUMBER, not a DOUBLE-FLOAT. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES DOUBLE-FLOAT ; &REST T). ; unable to do inline float arithmetic (cost 2) because: ; The first argument is a NUMBER, not a SINGLE-FLOAT. ; The second argument is a NUMBER, not a SINGLE-FLOAT. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES SINGLE-FLOAT ; &REST T). ; etc. ; --> LAMBDA FUNCTION BLOCK LET* LABELS COND IF PROGN WHEN IF BLOCK LOOP BLOCK ; --> TAGBODY PROGN LET COND IF COND IF AND IF AND THE ; ==> ; (< (+ CL-PPCRE::*END-STRING-POS* CL-PPCRE::END-STRING-LEN) ; CL-PPCRE::*END-POS*) ; ; note: forced to do GENERIC-< (cost 10) ; unable to do inline fixnum comparison (cost 4) because: ; The first argument is a REAL, not a FIXNUM. ; --> LAMBDA FUNCTION BLOCK LET* LABELS COND IF PROGN WHEN IF BLOCK LOOP BLOCK ; --> TAGBODY PROGN LET COND IF COND IF PROGN INCF SETQ THE ; ==> ; (+ 1 CL-PPCRE::*END-STRING-POS*) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline fixnum arithmetic (cost 1) because: ; The first argument is a NUMBER, not a FIXNUM. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a NUMBER, not a FIXNUM. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES FIXNUM &REST T). ; etc. ; (CL-PPCRE::INSERT-ADVANCE-FN ; (CL-PPCRE::ADVANCE-FN (CL-PPCRE::POS) ; (DECLARE (FUNCTION CL-PPCRE::END-STRING-TEST)) ; (IF (<= (THE FIXNUM CL-PPCRE::POS) (THE FIXNUM CL-PPCRE::*END-STRING-POS*)) ; (RETURN-FROM CL-PPCRE::ADVANCE-FN CL-PPCRE::POS)) ; (UNLESS (SETQ CL-PPCRE::*END-STRING-POS* #) ; (RETURN-FROM CL-PPCRE:SCAN NIL)) ; CL-PPCRE::POS)) ; --> LAMBDA FUNCTION BLOCK LET* LABELS WHEN IF PROGN UNLESS IF AND IF AND THE ; --> <= OR LET < IF ; ==> ; (< SB-C::X SB-C::Y) ; ; note: forced to do GENERIC-< (cost 10) ; unable to do inline fixnum comparison (cost 4) because: ; The second argument is a REAL, not a FIXNUM. ; --> LAMBDA FUNCTION BLOCK LET* LABELS COND IF PROGN WHEN IF BLOCK LOOP BLOCK ; --> TAGBODY PROGN LET COND IF COND IF AND IF AND THE < ; ==> ; (+ CL-PPCRE::*END-STRING-POS* CL-PPCRE::END-STRING-LEN) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline float arithmetic (cost 2) because: ; The first argument is a NUMBER, not a DOUBLE-FLOAT. ; The second argument is a NUMBER, not a DOUBLE-FLOAT. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES DOUBLE-FLOAT ; &REST T). ; unable to do inline float arithmetic (cost 2) because: ; The first argument is a NUMBER, not a SINGLE-FLOAT. ; The second argument is a NUMBER, not a SINGLE-FLOAT. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES SINGLE-FLOAT ; &REST T). ; etc. ; --> LAMBDA FUNCTION BLOCK LET* LABELS COND IF PROGN WHEN IF BLOCK LOOP BLOCK ; --> TAGBODY PROGN LET COND IF COND IF AND IF AND THE ; ==> ; (< (+ CL-PPCRE::*END-STRING-POS* CL-PPCRE::END-STRING-LEN) ; CL-PPCRE::*END-POS*) ; ; note: forced to do GENERIC-< (cost 10) ; unable to do inline fixnum comparison (cost 4) because: ; The first argument is a REAL, not a FIXNUM. ; --> LAMBDA FUNCTION BLOCK LET* LABELS COND IF PROGN WHEN IF BLOCK LOOP BLOCK ; --> TAGBODY PROGN LET COND IF COND IF PROGN INCF SETQ THE ; ==> ; (+ 1 CL-PPCRE::*END-STRING-POS*) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline fixnum arithmetic (cost 1) because: ; The first argument is a NUMBER, not a FIXNUM. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a NUMBER, not a FIXNUM. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES FIXNUM &REST T). ; etc. ; (CL-PPCRE::INSERT-ADVANCE-FN ; (CL-PPCRE::ADVANCE-FN (CL-PPCRE::POS) ; (UNLESS (SETQ CL-PPCRE::POS #) (RETURN-FROM CL-PPCRE:SCAN NIL)) ; CL-PPCRE::POS)) ; --> LAMBDA FUNCTION BLOCK LET* LABELS WHEN IF PROGN UNLESS IF AND IF AND THE ; --> <= OR LET < IF ; ==> ; (< SB-C::X SB-C::Y) ; ; note: forced to do GENERIC-< (cost 10) ; unable to do inline fixnum comparison (cost 4) because: ; The second argument is a REAL, not a FIXNUM. ; --> LAMBDA FUNCTION BLOCK LET* LABELS COND IF PROGN WHEN IF BLOCK LOOP BLOCK ; --> TAGBODY PROGN LET COND IF COND IF AND IF AND THE < ; ==> ; (+ CL-PPCRE::*END-STRING-POS* CL-PPCRE::END-STRING-LEN) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline float arithmetic (cost 2) because: ; The first argument is a NUMBER, not a DOUBLE-FLOAT. ; The second argument is a NUMBER, not a DOUBLE-FLOAT. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES DOUBLE-FLOAT ; &REST T). ; unable to do inline float arithmetic (cost 2) because: ; The first argument is a NUMBER, not a SINGLE-FLOAT. ; The second argument is a NUMBER, not a SINGLE-FLOAT. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES SINGLE-FLOAT ; &REST T). ; etc. ; --> LAMBDA FUNCTION BLOCK LET* LABELS COND IF PROGN WHEN IF BLOCK LOOP BLOCK ; --> TAGBODY PROGN LET COND IF COND IF AND IF AND THE ; ==> ; (< (+ CL-PPCRE::*END-STRING-POS* CL-PPCRE::END-STRING-LEN) ; CL-PPCRE::*END-POS*) ; ; note: forced to do GENERIC-< (cost 10) ; unable to do inline fixnum comparison (cost 4) because: ; The first argument is a REAL, not a FIXNUM. ; --> LAMBDA FUNCTION BLOCK LET* LABELS COND IF PROGN WHEN IF BLOCK LOOP BLOCK ; --> TAGBODY PROGN LET COND IF COND IF PROGN INCF SETQ THE ; ==> ; (+ 1 CL-PPCRE::*END-STRING-POS*) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline fixnum arithmetic (cost 1) because: ; The first argument is a NUMBER, not a FIXNUM. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a NUMBER, not a FIXNUM. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES FIXNUM &REST T). ; etc. ; (CL-PPCRE::INSERT-ADVANCE-FN ; (CL-PPCRE::ADVANCE-FN (CL-PPCRE::POS) ; (DECLARE (FUNCTION CL-PPCRE::START-STRING-TEST)) ; (UNLESS (SETQ CL-PPCRE::POS #) (RETURN-FROM CL-PPCRE:SCAN NIL)) ; CL-PPCRE::POS)) ; --> LAMBDA FUNCTION BLOCK LET* LABELS WHEN IF PROGN UNLESS IF AND IF AND THE ; --> <= OR LET < IF ; ==> ; (< SB-C::X SB-C::Y) ; ; note: forced to do GENERIC-< (cost 10) ; unable to do inline fixnum comparison (cost 4) because: ; The second argument is a REAL, not a FIXNUM. ; --> LAMBDA FUNCTION BLOCK LET* LABELS COND IF PROGN WHEN IF BLOCK LOOP BLOCK ; --> TAGBODY PROGN LET COND IF COND IF AND IF AND THE < ; ==> ; (+ CL-PPCRE::*END-STRING-POS* CL-PPCRE::END-STRING-LEN) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline float arithmetic (cost 2) because: ; The first argument is a NUMBER, not a DOUBLE-FLOAT. ; The second argument is a NUMBER, not a DOUBLE-FLOAT. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES DOUBLE-FLOAT ; &REST T). ; unable to do inline float arithmetic (cost 2) because: ; The first argument is a NUMBER, not a SINGLE-FLOAT. ; The second argument is a NUMBER, not a SINGLE-FLOAT. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES SINGLE-FLOAT ; &REST T). ; etc. ; --> LAMBDA FUNCTION BLOCK LET* LABELS COND IF PROGN WHEN IF BLOCK LOOP BLOCK ; --> TAGBODY PROGN LET COND IF COND IF AND IF AND THE ; ==> ; (< (+ CL-PPCRE::*END-STRING-POS* CL-PPCRE::END-STRING-LEN) ; CL-PPCRE::*END-POS*) ; ; note: forced to do GENERIC-< (cost 10) ; unable to do inline fixnum comparison (cost 4) because: ; The first argument is a REAL, not a FIXNUM. ; --> LAMBDA FUNCTION BLOCK LET* LABELS COND IF PROGN WHEN IF BLOCK LOOP BLOCK ; --> TAGBODY PROGN LET COND IF COND IF PROGN INCF SETQ THE ; ==> ; (+ 1 CL-PPCRE::*END-STRING-POS*) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline fixnum arithmetic (cost 1) because: ; The first argument is a NUMBER, not a FIXNUM. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a NUMBER, not a FIXNUM. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES FIXNUM &REST T). ; etc. ; (CL-PPCRE::INSERT-ADVANCE-FN ; (CL-PPCRE::ADVANCE-FN (CL-PPCRE::POS) ; (DECLARE (FUNCTION CL-PPCRE::END-STRING-TEST)) ; (UNLESS (SETQ CL-PPCRE::POS #) (RETURN-FROM CL-PPCRE:SCAN NIL)) ; (IF (<= (THE FIXNUM CL-PPCRE::POS) (THE FIXNUM CL-PPCRE::*END-STRING-POS*)) ; (RETURN-FROM CL-PPCRE::ADVANCE-FN CL-PPCRE::POS)) ; (UNLESS (SETQ CL-PPCRE::*END-STRING-POS* #) ; (RETURN-FROM CL-PPCRE:SCAN NIL)) ; CL-PPCRE::POS)) ; --> LAMBDA FUNCTION BLOCK LET* LABELS WHEN IF PROGN UNLESS IF AND IF AND THE ; --> <= OR LET < IF ; ==> ; (< SB-C::X SB-C::Y) ; ; note: forced to do GENERIC-< (cost 10) ; unable to do inline fixnum comparison (cost 4) because: ; The second argument is a REAL, not a FIXNUM. ; --> LAMBDA FUNCTION BLOCK LET* LABELS COND IF PROGN WHEN IF BLOCK LOOP BLOCK ; --> TAGBODY PROGN LET COND IF COND IF AND IF AND THE < ; ==> ; (+ CL-PPCRE::*END-STRING-POS* CL-PPCRE::END-STRING-LEN) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline float arithmetic (cost 2) because: ; The first argument is a NUMBER, not a DOUBLE-FLOAT. ; The second argument is a NUMBER, not a DOUBLE-FLOAT. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES DOUBLE-FLOAT ; &REST T). ; unable to do inline float arithmetic (cost 2) because: ; The first argument is a NUMBER, not a SINGLE-FLOAT. ; The second argument is a NUMBER, not a SINGLE-FLOAT. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES SINGLE-FLOAT ; &REST T). ; etc. ; --> LAMBDA FUNCTION BLOCK LET* LABELS COND IF PROGN WHEN IF BLOCK LOOP BLOCK ; --> TAGBODY PROGN LET COND IF COND IF AND IF AND THE ; ==> ; (< (+ CL-PPCRE::*END-STRING-POS* CL-PPCRE::END-STRING-LEN) ; CL-PPCRE::*END-POS*) ; ; note: forced to do GENERIC-< (cost 10) ; unable to do inline fixnum comparison (cost 4) because: ; The first argument is a REAL, not a FIXNUM. ; --> LAMBDA FUNCTION BLOCK LET* LABELS COND IF PROGN WHEN IF BLOCK LOOP BLOCK ; --> TAGBODY PROGN LET COND IF COND IF PROGN INCF SETQ THE ; ==> ; (+ 1 CL-PPCRE::*END-STRING-POS*) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline fixnum arithmetic (cost 1) because: ; The first argument is a NUMBER, not a FIXNUM. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a NUMBER, not a FIXNUM. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES FIXNUM &REST T). ; etc. ; (CL-PPCRE::INSERT-ADVANCE-FN ; (CL-PPCRE::ADVANCE-FN (CL-PPCRE::POS) ; (DECLARE (FUNCTION CL-PPCRE::START-STRING-TEST CL-PPCRE::END-STRING-TEST)) ; (UNLESS (SETQ CL-PPCRE::POS #) (RETURN-FROM CL-PPCRE:SCAN NIL)) ; (IF (<= (THE FIXNUM CL-PPCRE::POS) (THE FIXNUM CL-PPCRE::*END-STRING-POS*)) ; (RETURN-FROM CL-PPCRE::ADVANCE-FN CL-PPCRE::POS)) ; (UNLESS (SETQ CL-PPCRE::*END-STRING-POS* #) ; (RETURN-FROM CL-PPCRE:SCAN NIL)) ; CL-PPCRE::POS)) ; --> LAMBDA FUNCTION BLOCK LET* LABELS WHEN IF PROGN UNLESS IF AND IF AND THE ; --> <= OR LET < IF ; ==> ; (< SB-C::X SB-C::Y) ; ; note: forced to do GENERIC-< (cost 10) ; unable to do inline fixnum comparison (cost 4) because: ; The second argument is a REAL, not a FIXNUM. ; --> LAMBDA FUNCTION BLOCK LET* LABELS COND IF PROGN WHEN IF BLOCK LOOP BLOCK ; --> TAGBODY PROGN LET COND IF COND IF AND IF AND THE < ; ==> ; (+ CL-PPCRE::*END-STRING-POS* CL-PPCRE::END-STRING-LEN) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline float arithmetic (cost 2) because: ; The first argument is a NUMBER, not a DOUBLE-FLOAT. ; The second argument is a NUMBER, not a DOUBLE-FLOAT. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES DOUBLE-FLOAT ; &REST T). ; unable to do inline float arithmetic (cost 2) because: ; The first argument is a NUMBER, not a SINGLE-FLOAT. ; The second argument is a NUMBER, not a SINGLE-FLOAT. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES SINGLE-FLOAT ; &REST T). ; etc. ; --> LAMBDA FUNCTION BLOCK LET* LABELS COND IF PROGN WHEN IF BLOCK LOOP BLOCK ; --> TAGBODY PROGN LET COND IF COND IF AND IF AND THE ; ==> ; (< (+ CL-PPCRE::*END-STRING-POS* CL-PPCRE::END-STRING-LEN) ; CL-PPCRE::*END-POS*) ; ; note: forced to do GENERIC-< (cost 10) ; unable to do inline fixnum comparison (cost 4) because: ; The first argument is a REAL, not a FIXNUM. ; --> LAMBDA FUNCTION BLOCK LET* LABELS COND IF PROGN WHEN IF BLOCK LOOP BLOCK ; --> TAGBODY PROGN LET COND IF COND IF PROGN INCF SETQ THE ; ==> ; (+ 1 CL-PPCRE::*END-STRING-POS*) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline fixnum arithmetic (cost 1) because: ; The first argument is a NUMBER, not a FIXNUM. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a NUMBER, not a FIXNUM. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES FIXNUM &REST T). ; etc. ; (CL-PPCRE::INSERT-ADVANCE-FN ; (CL-PPCRE::ADVANCE-FN (CL-PPCRE::POS) ; (DECLARE (FIXNUM CL-PPCRE::END-STRING-OFFSET CL-PPCRE::STARTS-WITH-LEN) ; (FUNCTION CL-PPCRE::START-STRING-TEST CL-PPCRE::END-STRING-TEST)) ; (LOOP (UNLESS (SETQ #) (RETURN-FROM CL-PPCRE:SCAN NIL)) ; (LOCALLY ; (DECLARE #) ; (WHEN # #) ; (LET # ; #))))) ; --> LAMBDA FUNCTION BLOCK LET* LABELS WHEN IF PROGN UNLESS IF AND IF AND THE ; --> <= OR LET < IF ; ==> ; (< SB-C::X SB-C::Y) ; ; note: forced to do GENERIC-< (cost 10) ; unable to do inline fixnum comparison (cost 4) because: ; The second argument is a REAL, not a FIXNUM. ; --> LAMBDA FUNCTION BLOCK LET* LABELS COND IF PROGN WHEN IF BLOCK LOOP BLOCK ; --> TAGBODY PROGN LET COND IF COND IF AND IF AND THE < ; ==> ; (+ CL-PPCRE::*END-STRING-POS* CL-PPCRE::END-STRING-LEN) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline float arithmetic (cost 2) because: ; The first argument is a NUMBER, not a DOUBLE-FLOAT. ; The second argument is a NUMBER, not a DOUBLE-FLOAT. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES DOUBLE-FLOAT ; &REST T). ; unable to do inline float arithmetic (cost 2) because: ; The first argument is a NUMBER, not a SINGLE-FLOAT. ; The second argument is a NUMBER, not a SINGLE-FLOAT. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES SINGLE-FLOAT ; &REST T). ; etc. ; --> LAMBDA FUNCTION BLOCK LET* LABELS COND IF PROGN WHEN IF BLOCK LOOP BLOCK ; --> TAGBODY PROGN LET COND IF COND IF AND IF AND THE ; ==> ; (< (+ CL-PPCRE::*END-STRING-POS* CL-PPCRE::END-STRING-LEN) ; CL-PPCRE::*END-POS*) ; ; note: forced to do GENERIC-< (cost 10) ; unable to do inline fixnum comparison (cost 4) because: ; The first argument is a REAL, not a FIXNUM. ; --> LAMBDA FUNCTION BLOCK LET* LABELS COND IF PROGN WHEN IF BLOCK LOOP BLOCK ; --> TAGBODY PROGN LET COND IF COND IF PROGN INCF SETQ THE ; ==> ; (+ 1 CL-PPCRE::*END-STRING-POS*) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline fixnum arithmetic (cost 1) because: ; The first argument is a NUMBER, not a FIXNUM. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a NUMBER, not a FIXNUM. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES FIXNUM &REST T). ; etc. ; (CL-PPCRE::INSERT-ADVANCE-FN ; (CL-PPCRE::ADVANCE-FN (CL-PPCRE::POS) ; (DECLARE (FIXNUM CL-PPCRE::END-STRING-OFFSET) ; (FUNCTION CL-PPCRE::END-STRING-TEST)) ; (LOOP (UNLESS (SETQ #) (RETURN-FROM CL-PPCRE:SCAN NIL)) ; (LOCALLY ; (DECLARE #) ; (WHEN # #) ; (LET # ; #))))) ; --> LAMBDA FUNCTION BLOCK LET* LABELS WHEN IF PROGN UNLESS IF AND IF AND THE ; --> <= OR LET < IF ; ==> ; (< SB-C::X SB-C::Y) ; ; note: forced to do GENERIC-< (cost 10) ; unable to do inline fixnum comparison (cost 4) because: ; The second argument is a REAL, not a FIXNUM. ; --> LAMBDA FUNCTION BLOCK LET* LABELS COND IF PROGN WHEN IF BLOCK LOOP BLOCK ; --> TAGBODY PROGN LET COND IF COND IF AND IF AND THE < ; ==> ; (+ CL-PPCRE::*END-STRING-POS* CL-PPCRE::END-STRING-LEN) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline float arithmetic (cost 2) because: ; The first argument is a NUMBER, not a DOUBLE-FLOAT. ; The second argument is a NUMBER, not a DOUBLE-FLOAT. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES DOUBLE-FLOAT ; &REST T). ; unable to do inline float arithmetic (cost 2) because: ; The first argument is a NUMBER, not a SINGLE-FLOAT. ; The second argument is a NUMBER, not a SINGLE-FLOAT. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES SINGLE-FLOAT ; &REST T). ; etc. ; --> LAMBDA FUNCTION BLOCK LET* LABELS COND IF PROGN WHEN IF BLOCK LOOP BLOCK ; --> TAGBODY PROGN LET COND IF COND IF AND IF AND THE ; ==> ; (< (+ CL-PPCRE::*END-STRING-POS* CL-PPCRE::END-STRING-LEN) ; CL-PPCRE::*END-POS*) ; ; note: forced to do GENERIC-< (cost 10) ; unable to do inline fixnum comparison (cost 4) because: ; The first argument is a REAL, not a FIXNUM. ; --> LAMBDA FUNCTION BLOCK LET* LABELS COND IF PROGN WHEN IF BLOCK LOOP BLOCK ; --> TAGBODY PROGN LET COND IF COND IF PROGN INCF SETQ THE ; ==> ; (+ 1 CL-PPCRE::*END-STRING-POS*) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline fixnum arithmetic (cost 1) because: ; The first argument is a NUMBER, not a FIXNUM. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a NUMBER, not a FIXNUM. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES FIXNUM &REST T). ; etc. ; (CL-PPCRE::INSERT-ADVANCE-FN ; (CL-PPCRE::ADVANCE-FN (CL-PPCRE::POS) CL-PPCRE::POS)) ; --> LAMBDA FUNCTION BLOCK LET* ; ==> ; (SB-C::%SPECIAL-BIND ; '# ; # ; {100800D513}>) ; ; note: doing signed word to integer coercion (cost 20), for: ; the first argument of BIND ; --> LAMBDA FUNCTION BLOCK LET* LABELS WHEN IF PROGN LET UNLESS IF WHEN IF ; --> SETQ THE FUNCALL ; ==> ; (SB-C::%FUNCALL (SB-KERNEL:%COERCE-CALLABLE-TO-FUN CL-PPCRE::END-STRING-TEST) ; (1- CL-PPCRE::END-TEST-POS)) ; ; note: doing signed word to integer coercion (cost 20) ; (CL-PPCRE::INSERT-ADVANCE-FN ; (CL-PPCRE::ADVANCE-FN (CL-PPCRE::POS) ; (DECLARE (FUNCTION CL-PPCRE::END-STRING-TEST)) ; (IF (<= (THE FIXNUM CL-PPCRE::POS) (THE FIXNUM CL-PPCRE::*END-STRING-POS*)) ; (RETURN-FROM CL-PPCRE::ADVANCE-FN CL-PPCRE::POS)) ; (UNLESS (SETQ CL-PPCRE::*END-STRING-POS* #) ; (RETURN-FROM CL-PPCRE:SCAN NIL)) ; CL-PPCRE::POS)) ; --> LAMBDA FUNCTION BLOCK LET* ; ==> ; (SB-C::%SPECIAL-BIND ; '# ; # ; {100800D6C3}>) ; ; note: doing signed word to integer coercion (cost 20), for: ; the first argument of BIND ; --> LAMBDA FUNCTION BLOCK LET* LABELS WHEN IF PROGN LET UNLESS IF WHEN IF ; --> SETQ THE FUNCALL ; ==> ; (SB-C::%FUNCALL (SB-KERNEL:%COERCE-CALLABLE-TO-FUN CL-PPCRE::END-STRING-TEST) ; (1- CL-PPCRE::END-TEST-POS)) ; ; note: doing signed word to integer coercion (cost 20) ; (CL-PPCRE::INSERT-ADVANCE-FN ; (CL-PPCRE::ADVANCE-FN (CL-PPCRE::POS) ; (UNLESS (SETQ CL-PPCRE::POS #) (RETURN-FROM CL-PPCRE:SCAN NIL)) ; CL-PPCRE::POS)) ; --> LAMBDA FUNCTION BLOCK LET* ; ==> ; (SB-C::%SPECIAL-BIND ; '# ; # ; {100800D873}>) ; ; note: doing signed word to integer coercion (cost 20), for: ; the first argument of BIND ; --> LAMBDA FUNCTION BLOCK LET* LABELS WHEN IF PROGN LET UNLESS IF WHEN IF ; --> SETQ THE FUNCALL ; ==> ; (SB-C::%FUNCALL (SB-KERNEL:%COERCE-CALLABLE-TO-FUN CL-PPCRE::END-STRING-TEST) ; (1- CL-PPCRE::END-TEST-POS)) ; ; note: doing signed word to integer coercion (cost 20) ; (CL-PPCRE::INSERT-ADVANCE-FN ; (CL-PPCRE::ADVANCE-FN (CL-PPCRE::POS) ; (DECLARE (FUNCTION CL-PPCRE::START-STRING-TEST)) ; (UNLESS (SETQ CL-PPCRE::POS #) (RETURN-FROM CL-PPCRE:SCAN NIL)) ; CL-PPCRE::POS)) ; --> LAMBDA FUNCTION BLOCK LET* ; ==> ; (SB-C::%SPECIAL-BIND ; '# ; # ; {100800DA23}>) ; ; note: doing signed word to integer coercion (cost 20), for: ; the first argument of BIND ; --> LAMBDA FUNCTION BLOCK LET* LABELS WHEN IF PROGN LET UNLESS IF WHEN IF ; --> SETQ THE FUNCALL ; ==> ; (SB-C::%FUNCALL (SB-KERNEL:%COERCE-CALLABLE-TO-FUN CL-PPCRE::END-STRING-TEST) ; (1- CL-PPCRE::END-TEST-POS)) ; ; note: doing signed word to integer coercion (cost 20) ; (CL-PPCRE::INSERT-ADVANCE-FN ; (CL-PPCRE::ADVANCE-FN (CL-PPCRE::POS) ; (DECLARE (FUNCTION CL-PPCRE::END-STRING-TEST)) ; (UNLESS (SETQ CL-PPCRE::POS #) (RETURN-FROM CL-PPCRE:SCAN NIL)) ; (IF (<= (THE FIXNUM CL-PPCRE::POS) (THE FIXNUM CL-PPCRE::*END-STRING-POS*)) ; (RETURN-FROM CL-PPCRE::ADVANCE-FN CL-PPCRE::POS)) ; (UNLESS (SETQ CL-PPCRE::*END-STRING-POS* #) ; (RETURN-FROM CL-PPCRE:SCAN NIL)) ; CL-PPCRE::POS)) ; --> LAMBDA FUNCTION BLOCK LET* ; ==> ; (SB-C::%SPECIAL-BIND ; '# ; # ; {100800DBD3}>) ; ; note: doing signed word to integer coercion (cost 20), for: ; the first argument of BIND ; --> LAMBDA FUNCTION BLOCK LET* LABELS WHEN IF PROGN LET UNLESS IF WHEN IF ; --> SETQ THE FUNCALL ; ==> ; (SB-C::%FUNCALL (SB-KERNEL:%COERCE-CALLABLE-TO-FUN CL-PPCRE::END-STRING-TEST) ; (1- CL-PPCRE::END-TEST-POS)) ; ; note: doing signed word to integer coercion (cost 20) ; (CL-PPCRE::INSERT-ADVANCE-FN ; (CL-PPCRE::ADVANCE-FN (CL-PPCRE::POS) ; (DECLARE (FUNCTION CL-PPCRE::START-STRING-TEST CL-PPCRE::END-STRING-TEST)) ; (UNLESS (SETQ CL-PPCRE::POS #) (RETURN-FROM CL-PPCRE:SCAN NIL)) ; (IF (<= (THE FIXNUM CL-PPCRE::POS) (THE FIXNUM CL-PPCRE::*END-STRING-POS*)) ; (RETURN-FROM CL-PPCRE::ADVANCE-FN CL-PPCRE::POS)) ; (UNLESS (SETQ CL-PPCRE::*END-STRING-POS* #) ; (RETURN-FROM CL-PPCRE:SCAN NIL)) ; CL-PPCRE::POS)) ; --> LAMBDA FUNCTION BLOCK LET* ; ==> ; (SB-C::%SPECIAL-BIND ; '# ; # ; {100800DD83}>) ; ; note: doing signed word to integer coercion (cost 20), for: ; the first argument of BIND ; --> LAMBDA FUNCTION BLOCK LET* LABELS WHEN IF PROGN LET UNLESS IF WHEN IF ; --> SETQ THE FUNCALL ; ==> ; (SB-C::%FUNCALL (SB-KERNEL:%COERCE-CALLABLE-TO-FUN CL-PPCRE::END-STRING-TEST) ; (1- CL-PPCRE::END-TEST-POS)) ; ; note: doing signed word to integer coercion (cost 20) ; (CL-PPCRE::INSERT-ADVANCE-FN ; (CL-PPCRE::ADVANCE-FN (CL-PPCRE::POS) ; (DECLARE (FIXNUM CL-PPCRE::END-STRING-OFFSET) ; (FUNCTION CL-PPCRE::END-STRING-TEST)) ; (LOOP (UNLESS (SETQ #) (RETURN-FROM CL-PPCRE:SCAN NIL)) ; (LOCALLY ; (DECLARE #) ; (WHEN # #) ; (LET # ; #))))) ; --> LAMBDA FUNCTION BLOCK LET* ; ==> ; (SB-C::%SPECIAL-BIND ; '# ; # ; {1007F7A713}>) ; ; note: doing signed word to integer coercion (cost 20), for: ; the first argument of BIND ; (SETQ CL-PPCRE::TRY-POS (1+ CL-PPCRE::*END-STRING-POS*)) ; ; note: doing signed word to integer coercion (cost 20) to TRY-POS ; ; note: doing signed word to integer coercion (cost 20) to TRY-POS ; (CL-PPCRE::INSERT-ADVANCE-FN ; (CL-PPCRE::ADVANCE-FN (CL-PPCRE::POS) ; (DECLARE (FIXNUM CL-PPCRE::END-STRING-OFFSET) ; (FUNCTION CL-PPCRE::END-STRING-TEST)) ; (LOOP (UNLESS (SETQ #) (RETURN-FROM CL-PPCRE:SCAN NIL)) ; (LOCALLY ; (DECLARE #) ; (WHEN # #) ; (LET # ; #))))) ; --> LAMBDA FUNCTION BLOCK LET* LABELS WHEN IF PROGN LET UNLESS IF WHEN IF ; --> SETQ THE FUNCALL ; ==> ; (SB-C::%FUNCALL (SB-KERNEL:%COERCE-CALLABLE-TO-FUN CL-PPCRE::END-STRING-TEST) ; (1- CL-PPCRE::END-TEST-POS)) ; ; note: doing signed word to integer coercion (cost 20) ; (CL-PPCRE::INSERT-ADVANCE-FN ; (CL-PPCRE::ADVANCE-FN (CL-PPCRE::POS) ; (DECLARE (FIXNUM CL-PPCRE::END-STRING-OFFSET CL-PPCRE::STARTS-WITH-LEN) ; (FUNCTION CL-PPCRE::START-STRING-TEST CL-PPCRE::END-STRING-TEST)) ; (LOOP (UNLESS (SETQ #) (RETURN-FROM CL-PPCRE:SCAN NIL)) ; (LOCALLY ; (DECLARE #) ; (WHEN # #) ; (LET # ; #))))) ; --> LAMBDA FUNCTION BLOCK LET* ; ==> ; (SB-C::%SPECIAL-BIND ; '# ; # ; {1007F7E763}>) ; ; note: doing signed word to integer coercion (cost 20), for: ; the first argument of BIND ; (FUNCALL CL-PPCRE::END-STRING-TEST CL-PPCRE::TRY-POS) ; --> SB-C::%FUNCALL ; ==> ; CL-PPCRE::TRY-POS ; ; note: doing signed word to integer coercion (cost 20) from TRY-POS ; ; note: doing signed word to integer coercion (cost 20) from TRY-POS ; (CL-PPCRE::INSERT-ADVANCE-FN ; (CL-PPCRE::ADVANCE-FN (CL-PPCRE::POS) ; (DECLARE (FIXNUM CL-PPCRE::END-STRING-OFFSET CL-PPCRE::STARTS-WITH-LEN) ; (FUNCTION CL-PPCRE::START-STRING-TEST CL-PPCRE::END-STRING-TEST)) ; (LOOP (UNLESS (SETQ #) (RETURN-FROM CL-PPCRE:SCAN NIL)) ; (LOCALLY ; (DECLARE #) ; (WHEN # #) ; (LET # ; #))))) ; --> LAMBDA FUNCTION BLOCK LET* LABELS WHEN IF PROGN LET UNLESS IF WHEN IF ; --> SETQ THE FUNCALL ; ==> ; (SB-C::%FUNCALL (SB-KERNEL:%COERCE-CALLABLE-TO-FUN CL-PPCRE::END-STRING-TEST) ; (1- CL-PPCRE::END-TEST-POS)) ; ; note: doing signed word to integer coercion (cost 20) ; /wrkdirs/textproc/cl-ppcre-sbcl/cl-ppcre-2.0.3/scanner-TMP.fasl written ; compilation finished in 0:00:01.324 ; compiling file "/usr/local/lib/common-lisp/cl-ppcre/api.lisp" (written 25 JUL 2016 01:40:59 AM): ; compiling (IN-PACKAGE :CL-PPCRE) ; compiling (DEFGENERIC CREATE-SCANNER ...) ; compiling (DEFMETHOD CREATE-SCANNER ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/api.lisp ; in: DEFMETHOD CREATE-SCANNER (STRING) ; (COPY-SEQ CL-PPCRE::QUOTED-REGEX-STRING) ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a VECTOR. ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a LIST. ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a SB-KERNEL:EXTENDED-SEQUENCE. ; compiling (DEFMETHOD CREATE-SCANNER ...) ; compiling (DEFMETHOD CREATE-SCANNER ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/api.lisp ; in: DEFMETHOD CREATE-SCANNER (T) ; (PLUSP (CL-PPCRE::LEN CL-PPCRE::END-STRING)) ; ==> ; (> (CL-PPCRE::LEN CL-PPCRE::END-STRING) 0) ; ; note: unable to ; open-code FLOAT to RATIONAL comparison ; due to type uncertainty: ; The first argument is a REAL, not a FLOAT. ; (= 1 (CL-PPCRE::LEN CL-PPCRE::END-STRING)) ; ; note: unable to ; open-code FLOAT to RATIONAL comparison ; due to type uncertainty: ; The first argument is a NUMBER, not a FLOAT. ; ; note: unable to open code because: The operands might not be the same type. ; (PLUSP (CL-PPCRE::LEN CL-PPCRE::STARTS-WITH)) ; ==> ; (> (CL-PPCRE::LEN CL-PPCRE::STARTS-WITH) 0) ; ; note: unable to ; open-code FLOAT to RATIONAL comparison ; due to type uncertainty: ; The first argument is a REAL, not a FLOAT. ; (= 1 (CL-PPCRE::LEN CL-PPCRE::STARTS-WITH)) ; ; note: unable to ; open-code FLOAT to RATIONAL comparison ; due to type uncertainty: ; The first argument is a NUMBER, not a FLOAT. ; ; note: unable to open code because: The operands might not be the same type. ; (PLUSP (CL-PPCRE::LEN CL-PPCRE::END-STRING)) ; ==> ; (> (CL-PPCRE::LEN CL-PPCRE::END-STRING) 0) ; ; note: forced to do GENERIC-> (cost 10) ; unable to do inline fixnum comparison (cost 3) because: ; The first argument is a REAL, not a FIXNUM. ; unable to do inline fixnum comparison (cost 4) because: ; The first argument is a REAL, not a FIXNUM. ; etc. ; (PLUSP (CL-PPCRE::LEN CL-PPCRE::STARTS-WITH)) ; ==> ; (> (CL-PPCRE::LEN CL-PPCRE::STARTS-WITH) 0) ; ; note: forced to do GENERIC-> (cost 10) ; unable to do inline fixnum comparison (cost 3) because: ; The first argument is a REAL, not a FIXNUM. ; unable to do inline fixnum comparison (cost 4) because: ; The first argument is a REAL, not a FIXNUM. ; etc. ; compiling (DEFGENERIC SCAN ...) ; compiling (DEFMETHOD SCAN ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/api.lisp ; in: DEFMETHOD SCAN (STRING T) ; (LENGTH CL-PPCRE::TARGET-STRING) ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a (SIMPLE-ARRAY * (*)). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a VECTOR. ; (FUNCALL (CL-PPCRE:CREATE-SCANNER CL-PPCRE::REGEX-STRING) ; (CL-PPCRE::MAYBE-COERCE-TO-SIMPLE-STRING CL-PPCRE::TARGET-STRING) ; CL-PPCRE::START CL-PPCRE::END) ; --> SB-C::%FUNCALL THE ; ==> ; (SB-KERNEL:%COERCE-CALLABLE-TO-FUN ; (CL-PPCRE:CREATE-SCANNER CL-PPCRE::REGEX-STRING)) ; ; note: unable to ; optimize away possible call to FDEFINITION at runtime ; because: ; not known to be a function ; (CL-PPCRE::MAYBE-COERCE-TO-SIMPLE-STRING CL-PPCRE::TARGET-STRING) ; --> LET COND IF COND THE PROGN COERCE THE IF REPLACE MAKE-ARRAY LOCALLY ; --> MAKE-ARRAY ; ==> ; (LENGTH SB-C::X) ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a (SIMPLE-ARRAY * (*)). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a VECTOR. ; --> LET COND IF COND THE PROGN COERCE THE IF ; ==> ; (REPLACE (MAKE-ARRAY (LENGTH SB-C::X) :ELEMENT-TYPE 'CHARACTER) SB-C::X) ; ; note: unable to ; optimize ; due to type uncertainty: ; The second argument is a SEQUENCE, not a (SIMPLE-ARRAY CHARACTER (*)). ; ; note: unable to ; optimize ; due to type uncertainty: ; The second argument is a SEQUENCE, not a SIMPLE-BASE-STRING. ; compiling (DEFMETHOD SCAN ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/api.lisp ; in: DEFMETHOD SCAN #'T ; (LENGTH CL-PPCRE::TARGET-STRING) ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a (SIMPLE-ARRAY * (*)). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a VECTOR. ; (CL-PPCRE::MAYBE-COERCE-TO-SIMPLE-STRING CL-PPCRE::TARGET-STRING) ; --> LET COND IF COND THE PROGN COERCE THE IF REPLACE MAKE-ARRAY LOCALLY ; --> MAKE-ARRAY ; ==> ; (LENGTH SB-C::X) ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a (SIMPLE-ARRAY * (*)). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a VECTOR. ; --> LET COND IF COND THE PROGN COERCE THE IF ; ==> ; (REPLACE (MAKE-ARRAY (LENGTH SB-C::X) :ELEMENT-TYPE 'CHARACTER) SB-C::X) ; ; note: unable to ; optimize ; due to type uncertainty: ; The second argument is a SEQUENCE, not a (SIMPLE-ARRAY CHARACTER (*)). ; ; note: unable to ; optimize ; due to type uncertainty: ; The second argument is a SEQUENCE, not a SIMPLE-BASE-STRING. ; compiling (DEFMETHOD SCAN ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/api.lisp ; in: DEFMETHOD SCAN (T T) ; (LENGTH CL-PPCRE::TARGET-STRING) ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a (SIMPLE-ARRAY * (*)). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a VECTOR. ; (FUNCALL (CL-PPCRE:CREATE-SCANNER CL-PPCRE::PARSE-TREE) ; (CL-PPCRE::MAYBE-COERCE-TO-SIMPLE-STRING CL-PPCRE::TARGET-STRING) ; CL-PPCRE::START CL-PPCRE::END) ; --> SB-C::%FUNCALL THE ; ==> ; (SB-KERNEL:%COERCE-CALLABLE-TO-FUN ; (CL-PPCRE:CREATE-SCANNER CL-PPCRE::PARSE-TREE)) ; ; note: unable to ; optimize away possible call to FDEFINITION at runtime ; because: ; not known to be a function ; (CL-PPCRE::MAYBE-COERCE-TO-SIMPLE-STRING CL-PPCRE::TARGET-STRING) ; --> LET COND IF COND THE PROGN COERCE THE IF REPLACE MAKE-ARRAY LOCALLY ; --> MAKE-ARRAY ; ==> ; (LENGTH SB-C::X) ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a (SIMPLE-ARRAY * (*)). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a VECTOR. ; --> LET COND IF COND THE PROGN COERCE THE IF ; ==> ; (REPLACE (MAKE-ARRAY (LENGTH SB-C::X) :ELEMENT-TYPE 'CHARACTER) SB-C::X) ; ; note: unable to ; optimize ; due to type uncertainty: ; The second argument is a SEQUENCE, not a (SIMPLE-ARRAY CHARACTER (*)). ; ; note: unable to ; optimize ; due to type uncertainty: ; The second argument is a SEQUENCE, not a SIMPLE-BASE-STRING. ; compiling (DEFINE-COMPILER-MACRO SCAN ...) ; compiling (DEFUN SCAN-TO-STRINGS ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/api.lisp ; in: DEFUN SCAN-TO-STRINGS ; (MAP 'VECTOR ; (LAMBDA (CL-PPCRE::REG-START CL-PPCRE::REG-END) ; (IF CL-PPCRE::REG-START ; (FUNCALL CL-PPCRE::SUBSTR-FN CL-PPCRE::TARGET-STRING ; CL-PPCRE::REG-START CL-PPCRE::REG-END) ; NIL)) ; CL-PPCRE::REG-STARTS CL-PPCRE::REG-ENDS) ; --> TRULY-THE SB-KERNEL:%MAP MAP-INTO MAKE-SEQUENCE MIN LET ; ==> ; (LENGTH #:G327) ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a (SIMPLE-ARRAY * (*)). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a VECTOR. ; (LENGTH CL-PPCRE::TARGET-STRING) ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a (SIMPLE-ARRAY * (*)). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a VECTOR. ; (MAP 'VECTOR ; (LAMBDA (CL-PPCRE::REG-START CL-PPCRE::REG-END) ; (IF CL-PPCRE::REG-START ; (FUNCALL CL-PPCRE::SUBSTR-FN CL-PPCRE::TARGET-STRING ; CL-PPCRE::REG-START CL-PPCRE::REG-END) ; NIL)) ; CL-PPCRE::REG-STARTS CL-PPCRE::REG-ENDS) ; --> TRULY-THE SB-KERNEL:%MAP MAP-INTO MAKE-SEQUENCE MIN LET LET MIN LET ; ==> ; (LENGTH #:G328) ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a (SIMPLE-ARRAY * (*)). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a VECTOR. ; compiling (DEFINE-COMPILER-MACRO SCAN-TO-STRINGS ...) ; compiling (DEFMACRO REGISTER-GROUPS-BIND ...) ; compiling (DEFMACRO DO-SCANS ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/api.lisp ; in: DEFMACRO DO-SCANS ; (DEFMACRO CL-PPCRE:DO-SCANS ; ( ; (CL-PPCRE::MATCH-START ; CL-PPCRE::MATCH-END ; CL-PPCRE::REG-STARTS ; CL-PPCRE::REG-ENDS ; CL-PPCRE::REGEX ; CL-PPCRE::TARGET-STRING ; &OPTIONAL ; CL-PPCRE::RESULT-FORM ; &KEY ; CL-PPCRE::START ; CL-PPCRE::END) ; &BODY CL-PPCRE::BODY &ENVIRONMENT CL-PPCRE::ENV) ; "Iterates over TARGET-STRING and tries to match REGEX as often as ; possible evaluating BODY with MATCH-START, MATCH-END, REG-STARTS, and ; REG-ENDS bound to the four return values of each match in turn. After ; the last match, returns RESULT-FORM if provided or NIL otherwise. An ; implicit block named NIL surrounds DO-SCANS; RETURN may be used to ; terminate the loop immediately. If REGEX matches an empty string the ; scan is continued one position behind this match. BODY may start with ; declarations." ; (CL-PPCRE::WITH-REBINDING (CL-PPCRE::TARGET-STRING) ; (CL-PPCRE::WITH-UNIQUE-NAMES (CL-PPCRE::%START CL-PPCRE::%END ; CL-PPCRE::%REGEX CL-PPCRE::SCANNER) ; (DECLARE (IGNORABLE CL-PPCRE::%REGEX CL-PPCRE::SCANNER)) ; `(BLOCK NIL ; (LET* # ; # ; #))))) ; ; caught STYLE-WARNING: ; &OPTIONAL and &KEY found in the same lambda list: (MATCH-START MATCH-END ; REG-STARTS REG-ENDS REGEX ; TARGET-STRING &OPTIONAL ; RESULT-FORM &KEY START END) ; compiling (DEFMACRO DO-MATCHES ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/api.lisp ; in: DEFMACRO DO-MATCHES ; (DEFMACRO CL-PPCRE:DO-MATCHES ; ( ; (CL-PPCRE::MATCH-START ; CL-PPCRE::MATCH-END ; CL-PPCRE::REGEX ; CL-PPCRE::TARGET-STRING ; &OPTIONAL ; CL-PPCRE::RESULT-FORM ; &KEY ; CL-PPCRE::START ; CL-PPCRE::END) ; &BODY CL-PPCRE::BODY) ; "Iterates over TARGET-STRING and tries to match REGEX as often as ; possible evaluating BODY with MATCH-START and MATCH-END bound to the ; start/end positions of each match in turn. After the last match, ; returns RESULT-FORM if provided or NIL otherwise. An implicit block ; named NIL surrounds DO-MATCHES; RETURN may be used to terminate the ; loop immediately. If REGEX matches an empty string the scan is ; continued one position behind this match. BODY may start with ; declarations." ; (CL-PPCRE::WITH-UNIQUE-NAMES (CL-PPCRE::REG-STARTS CL-PPCRE::REG-ENDS) ; `(CL-PPCRE:DO-SCANS (,CL-PPCRE::MATCH-START ,CL-PPCRE::MATCH-END ; ,CL-PPCRE::REG-STARTS ,CL-PPCRE::REG-ENDS ; ,CL-PPCRE::REGEX ,CL-PPCRE::TARGET-STRING ; ,CL-PPCRE::RESULT-FORM :START ,CL-PPCRE::START :END ; ,CL-PPCRE::END) ; ,@CL-PPCRE::BODY))) ; ; caught STYLE-WARNING: ; &OPTIONAL and &KEY found in the same lambda list: (MATCH-START MATCH-END REGEX ; TARGET-STRING &OPTIONAL ; RESULT-FORM &KEY START END) ; compiling (DEFMACRO DO-MATCHES-AS-STRINGS ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/api.lisp ; in: DEFMACRO DO-MATCHES-AS-STRINGS ; (DEFMACRO CL-PPCRE:DO-MATCHES-AS-STRINGS ; ( ; (CL-PPCRE::MATCH-VAR ; CL-PPCRE::REGEX ; CL-PPCRE::TARGET-STRING ; &OPTIONAL ; CL-PPCRE::RESULT-FORM ; &KEY ; CL-PPCRE::START ; CL-PPCRE::END ; CL-PPCRE::SHAREDP) ; &BODY CL-PPCRE::BODY) ; "Iterates over TARGET-STRING and tries to match REGEX as often as ; possible evaluating BODY with MATCH-VAR bound to the substring of ; TARGET-STRING corresponding to each match in turn. After the last ; match, returns RESULT-FORM if provided or NIL otherwise. An implicit ; block named NIL surrounds DO-MATCHES-AS-STRINGS; RETURN may be used to ; terminate the loop immediately. If REGEX matches an empty string the ; scan is continued one position behind this match. If SHAREDP is true, ; the substrings may share structure with TARGET-STRING. BODY may start ; with declarations." ; (CL-PPCRE::WITH-REBINDING (CL-PPCRE::TARGET-STRING) ; (CL-PPCRE::WITH-UNIQUE-NAMES (CL-PPCRE::MATCH-START CL-PPCRE::MATCH-END ; CL-PPCRE::SUBSTR-FN) ; `(LET (#) ; (CL-PPCRE:DO-MATCHES # ; #))))) ; ; caught STYLE-WARNING: ; &OPTIONAL and &KEY found in the same lambda list: (MATCH-VAR REGEX ; TARGET-STRING &OPTIONAL ; RESULT-FORM &KEY START END ; SHAREDP) ; compiling (DEFMACRO DO-REGISTER-GROUPS ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/api.lisp ; in: DEFMACRO DO-REGISTER-GROUPS ; (DEFMACRO CL-PPCRE:DO-REGISTER-GROUPS ; (CL-PPCRE::VAR-LIST ; (CL-PPCRE::REGEX ; CL-PPCRE::TARGET-STRING ; &OPTIONAL ; CL-PPCRE::RESULT-FORM ; &KEY ; CL-PPCRE::START ; CL-PPCRE::END ; CL-PPCRE::SHAREDP) ; &BODY CL-PPCRE::BODY) ; "Iterates over TARGET-STRING and tries to match REGEX as often as ; possible evaluating BODY with the variables in VAR-LIST bound to the ; corresponding register groups for each match in turn, i.e. each ; variable is either bound to a string or to NIL. For each element of ; VAR-LIST which is NIL there's no binding to the corresponding register ; group. The number of variables in VAR-LIST must not be greater than ; the number of register groups. After the last match, returns ; RESULT-FORM if provided or NIL otherwise. An implicit block named NIL ; surrounds DO-REGISTER-GROUPS; RETURN may be used to terminate the loop ; immediately. If REGEX matches an empty string the scan is continued ; one position behind this match. If SHAREDP is true, the substrings ; may share structure with TARGET-STRING. BODY may start with ; declarations." ; (CL-PPCRE::WITH-REBINDING (CL-PPCRE::TARGET-STRING) ; (CL-PPCRE::WITH-UNIQUE-NAMES (CL-PPCRE::SUBSTR-FN CL-PPCRE::MATCH-START ; CL-PPCRE::MATCH-END CL-PPCRE::REG-STARTS ; CL-PPCRE::REG-ENDS CL-PPCRE::START-INDEX) ; `(LET (#) ; (CL-PPCRE:DO-SCANS # ; #))))) ; ; caught STYLE-WARNING: ; &OPTIONAL and &KEY found in the same lambda list: (REGEX TARGET-STRING ; &OPTIONAL RESULT-FORM ; &KEY START END SHAREDP) ; compiling (DEFUN ALL-MATCHES ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/api.lisp ; in: DEFUN ALL-MATCHES ; (CL-PPCRE:DO-MATCHES (CL-PPCRE::MATCH-START CL-PPCRE::MATCH-END ; CL-PPCRE::REGEX CL-PPCRE::TARGET-STRING ; (NREVERSE CL-PPCRE::RESULT-LIST) :START CL-PPCRE::START ; :END CL-PPCRE::END) ; (PUSH CL-PPCRE::MATCH-START CL-PPCRE::RESULT-LIST) ; (PUSH CL-PPCRE::MATCH-END CL-PPCRE::RESULT-LIST)) ; --> CL-PPCRE:DO-SCANS LET BLOCK LET* LOOP BLOCK TAGBODY PROGN ; --> MULTIPLE-VALUE-BIND MULTIPLE-VALUE-CALL FUNCTION SETQ THE IF ; ==> ; (= CL-PPCRE::MATCH-START CL-PPCRE::MATCH-END) ; ; note: unable to ; open-code FLOAT to RATIONAL comparison ; due to type uncertainty: ; The first argument is a NUMBER, not a FLOAT. ; The second argument is a NUMBER, not a RATIONAL. ; ; note: unable to open code because: The operands might not be the same type. ; --> CL-PPCRE:DO-SCANS LET BLOCK LET* LOOP BLOCK TAGBODY PROGN ; --> MULTIPLE-VALUE-BIND MULTIPLE-VALUE-CALL FUNCTION SETQ THE IF 1+ ; ==> ; (+ CL-PPCRE::MATCH-END 1) ; ; note: unable to ; associate +/+ of constants ; due to type uncertainty: ; The first argument is a NUMBER, not a RATIONAL. ; ; note: unable to ; associate +/- of constants ; due to type uncertainty: ; The first argument is a NUMBER, not a RATIONAL. ; (LENGTH CL-PPCRE::TARGET-STRING) ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a (SIMPLE-ARRAY * (*)). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a VECTOR. ; (CL-PPCRE:DO-MATCHES (CL-PPCRE::MATCH-START CL-PPCRE::MATCH-END ; CL-PPCRE::REGEX CL-PPCRE::TARGET-STRING ; (NREVERSE CL-PPCRE::RESULT-LIST) :START CL-PPCRE::START ; :END CL-PPCRE::END) ; (PUSH CL-PPCRE::MATCH-START CL-PPCRE::RESULT-LIST) ; (PUSH CL-PPCRE::MATCH-END CL-PPCRE::RESULT-LIST)) ; --> CL-PPCRE:DO-SCANS LET BLOCK LET* OR LET IF OR THE ; ==> ; (LENGTH #:TARGET-STRING931) ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a (SIMPLE-ARRAY * (*)). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a VECTOR. ; --> CL-PPCRE:DO-SCANS LET BLOCK LET* SETQ THE ; --> CL-PPCRE::MAYBE-COERCE-TO-SIMPLE-STRING LET COND IF COND THE PROGN COERCE ; --> THE IF REPLACE MAKE-ARRAY LOCALLY MAKE-ARRAY ; ==> ; (LENGTH SB-C::X) ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a (SIMPLE-ARRAY * (*)). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a VECTOR. ; --> CL-PPCRE:DO-SCANS LET BLOCK LET* SETQ THE ; --> CL-PPCRE::MAYBE-COERCE-TO-SIMPLE-STRING LET COND IF COND THE PROGN COERCE ; --> THE IF ; ==> ; (REPLACE (MAKE-ARRAY (LENGTH SB-C::X) :ELEMENT-TYPE 'CHARACTER) SB-C::X) ; ; note: unable to ; optimize ; due to type uncertainty: ; The second argument is a SEQUENCE, not a (SIMPLE-ARRAY CHARACTER (*)). ; ; note: unable to ; optimize ; due to type uncertainty: ; The second argument is a SEQUENCE, not a SIMPLE-BASE-STRING. ; --> CL-PPCRE:DO-SCANS LET BLOCK LET* LOOP BLOCK TAGBODY PROGN ; --> MULTIPLE-VALUE-BIND MULTIPLE-VALUE-CALL FUNCTION SETQ THE IF ; ==> ; (= CL-PPCRE::MATCH-START CL-PPCRE::MATCH-END) ; ; note: forced to do GENERIC-= (cost 10) ; unable to do inline float comparison (cost 3) because: ; The first argument is a NUMBER, not a DOUBLE-FLOAT. ; The second argument is a NUMBER, not a (COMPLEX DOUBLE-FLOAT). ; unable to do inline float comparison (cost 3) because: ; The first argument is a NUMBER, not a (COMPLEX DOUBLE-FLOAT). ; The second argument is a NUMBER, not a (COMPLEX DOUBLE-FLOAT). ; etc. ; --> CL-PPCRE:DO-SCANS LET BLOCK LET* LOOP BLOCK TAGBODY PROGN ; --> MULTIPLE-VALUE-BIND MULTIPLE-VALUE-CALL FUNCTION SETQ THE IF 1+ ; ==> ; (+ CL-PPCRE::MATCH-END 1) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline fixnum arithmetic (cost 1) because: ; The first argument is a NUMBER, not a FIXNUM. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a NUMBER, not a FIXNUM. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES FIXNUM &REST T). ; etc. ; compiling (DEFINE-COMPILER-MACRO ALL-MATCHES ...) ; compiling (DEFUN ALL-MATCHES-AS-STRINGS ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/api.lisp ; in: DEFUN ALL-MATCHES-AS-STRINGS ; (CL-PPCRE:DO-MATCHES-AS-STRINGS (CL-PPCRE::MATCH CL-PPCRE::REGEX ; CL-PPCRE::TARGET-STRING ; (NREVERSE CL-PPCRE::RESULT-LIST) :START ; CL-PPCRE::START :END CL-PPCRE::END :SHAREDP ; CL-PPCRE::SHAREDP) ; (PUSH CL-PPCRE::MATCH CL-PPCRE::RESULT-LIST)) ; --> LET LET CL-PPCRE:DO-MATCHES CL-PPCRE:DO-SCANS LET BLOCK LET* LOOP BLOCK ; --> TAGBODY PROGN MULTIPLE-VALUE-BIND MULTIPLE-VALUE-CALL FUNCTION SETQ THE ; --> IF ; ==> ; (= #:MATCH-START1017 #:MATCH-END1018) ; ; note: unable to ; open-code FLOAT to RATIONAL comparison ; due to type uncertainty: ; The first argument is a NUMBER, not a FLOAT. ; The second argument is a NUMBER, not a RATIONAL. ; ; note: unable to open code because: The operands might not be the same type. ; --> LET LET CL-PPCRE:DO-MATCHES CL-PPCRE:DO-SCANS LET BLOCK LET* LOOP BLOCK ; --> TAGBODY PROGN MULTIPLE-VALUE-BIND MULTIPLE-VALUE-CALL FUNCTION SETQ THE ; --> IF 1+ ; ==> ; (+ #:MATCH-END1018 1) ; ; note: unable to ; associate +/+ of constants ; due to type uncertainty: ; The first argument is a NUMBER, not a RATIONAL. ; ; note: unable to ; associate +/- of constants ; due to type uncertainty: ; The first argument is a NUMBER, not a RATIONAL. ; (LENGTH CL-PPCRE::TARGET-STRING) ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a (SIMPLE-ARRAY * (*)). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a VECTOR. ; (CL-PPCRE:DO-MATCHES-AS-STRINGS (CL-PPCRE::MATCH CL-PPCRE::REGEX ; CL-PPCRE::TARGET-STRING ; (NREVERSE CL-PPCRE::RESULT-LIST) :START ; CL-PPCRE::START :END CL-PPCRE::END :SHAREDP ; CL-PPCRE::SHAREDP) ; (PUSH CL-PPCRE::MATCH CL-PPCRE::RESULT-LIST)) ; --> LET LET CL-PPCRE:DO-MATCHES CL-PPCRE:DO-SCANS LET BLOCK LET* OR LET IF OR ; --> THE ; ==> ; (LENGTH #:TARGET-STRING1022) ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a (SIMPLE-ARRAY * (*)). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a VECTOR. ; --> LET LET CL-PPCRE:DO-MATCHES CL-PPCRE:DO-SCANS LET BLOCK LET* SETQ THE ; --> CL-PPCRE::MAYBE-COERCE-TO-SIMPLE-STRING LET COND IF COND THE PROGN COERCE ; --> THE IF REPLACE MAKE-ARRAY LOCALLY MAKE-ARRAY ; ==> ; (LENGTH SB-C::X) ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a (SIMPLE-ARRAY * (*)). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a VECTOR. ; --> LET LET CL-PPCRE:DO-MATCHES CL-PPCRE:DO-SCANS LET BLOCK LET* SETQ THE ; --> CL-PPCRE::MAYBE-COERCE-TO-SIMPLE-STRING LET COND IF COND THE PROGN COERCE ; --> THE IF ; ==> ; (REPLACE (MAKE-ARRAY (LENGTH SB-C::X) :ELEMENT-TYPE 'CHARACTER) SB-C::X) ; ; note: unable to ; optimize ; due to type uncertainty: ; The second argument is a SEQUENCE, not a (SIMPLE-ARRAY CHARACTER (*)). ; ; note: unable to ; optimize ; due to type uncertainty: ; The second argument is a SEQUENCE, not a SIMPLE-BASE-STRING. ; --> LET LET CL-PPCRE:DO-MATCHES CL-PPCRE:DO-SCANS LET BLOCK LET* LOOP BLOCK ; --> TAGBODY PROGN MULTIPLE-VALUE-BIND MULTIPLE-VALUE-CALL FUNCTION SETQ THE ; --> IF ; ==> ; (= #:MATCH-START1017 #:MATCH-END1018) ; ; note: forced to do GENERIC-= (cost 10) ; unable to do inline float comparison (cost 3) because: ; The first argument is a NUMBER, not a DOUBLE-FLOAT. ; The second argument is a NUMBER, not a (COMPLEX DOUBLE-FLOAT). ; unable to do inline float comparison (cost 3) because: ; The first argument is a NUMBER, not a (COMPLEX DOUBLE-FLOAT). ; The second argument is a NUMBER, not a (COMPLEX DOUBLE-FLOAT). ; etc. ; --> LET LET CL-PPCRE:DO-MATCHES CL-PPCRE:DO-SCANS LET BLOCK LET* LOOP BLOCK ; --> TAGBODY PROGN MULTIPLE-VALUE-BIND MULTIPLE-VALUE-CALL FUNCTION SETQ THE ; --> IF 1+ ; ==> ; (+ #:MATCH-END1018 1) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline fixnum arithmetic (cost 1) because: ; The first argument is a NUMBER, not a FIXNUM. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a NUMBER, not a FIXNUM. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES FIXNUM &REST T). ; etc. ; compiling (DEFINE-COMPILER-MACRO ALL-MATCHES-AS-STRINGS ...) ; compiling (DEFUN SPLIT ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/api.lisp ; in: DEFUN SPLIT ; (= CL-PPCRE::MATCH-START CL-PPCRE::MATCH-END) ; ; note: unable to ; open-code FLOAT to RATIONAL comparison ; due to type uncertainty: ; The first argument is a NUMBER, not a FLOAT. ; The second argument is a NUMBER, not a RATIONAL. ; ; note: unable to open code because: The operands might not be the same type. ; (= CL-PPCRE::MATCH-START (CAR CL-PPCRE::POS-LIST)) ; ; note: unable to ; open-code FLOAT to RATIONAL comparison ; due to type uncertainty: ; The first argument is a NUMBER, not a FLOAT. ; The second argument is a NUMBER, not a RATIONAL. ; ; note: unable to open code because: The operands might not be the same type. ; (LOOP CL-PPCRE::FOR CL-PPCRE::REG-START CL-PPCRE::ACROSS CL-PPCRE::REG-STARTS ; CL-PPCRE::FOR CL-PPCRE::REG-END CL-PPCRE::ACROSS CL-PPCRE::REG-ENDS ; IF CL-PPCRE::REG-START ; DO ...) ; --> BLOCK LET LET SB-LOOP::LOOP-BODY TAGBODY SB-LOOP::LOOP-REALLY-DESETQ SETQ ; --> THE AREF ; ==> ; (SB-KERNEL:HAIRY-DATA-VECTOR-REF ARRAY SB-INT:INDEX) ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a VECTOR, not a SIMPLE-STRING. ; ; note: unable to ; avoid runtime dispatch on array element type ; due to type uncertainty: ; The first argument is a VECTOR, not a SIMPLE-ARRAY. ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a VECTOR, not a SIMPLE-STRING. ; ; note: unable to ; avoid runtime dispatch on array element type ; due to type uncertainty: ; The first argument is a VECTOR, not a SIMPLE-ARRAY. ; (CL-PPCRE:DO-SCANS (CL-PPCRE::MATCH-START CL-PPCRE::MATCH-END ; CL-PPCRE::REG-STARTS CL-PPCRE::REG-ENDS CL-PPCRE::REGEX ; CL-PPCRE::TARGET-STRING NIL :START CL-PPCRE::START :END ; CL-PPCRE::END) ; (UNLESS ; (AND (= CL-PPCRE::MATCH-START CL-PPCRE::MATCH-END) ; (= CL-PPCRE::MATCH-START (CAR CL-PPCRE::POS-LIST))) ; (WHEN (AND CL-PPCRE::LIMIT (>= # CL-PPCRE::LIMIT)) (RETURN)) ; (PUSH CL-PPCRE::MATCH-START CL-PPCRE::POS-LIST) ; (WHEN CL-PPCRE::WITH-REGISTERS-P ; (LOOP CL-PPCRE::FOR CL-PPCRE::REG-START CL-PPCRE::ACROSS CL-PPCRE::REG-STARTS ; CL-PPCRE::FOR CL-PPCRE::REG-END CL-PPCRE::ACROSS CL-PPCRE::REG-ENDS ; IF CL-PPCRE::REG-START ; DO ...)) ; (PUSH CL-PPCRE::MATCH-END CL-PPCRE::POS-LIST))) ; --> LET BLOCK LET* LOOP BLOCK TAGBODY PROGN MULTIPLE-VALUE-BIND ; --> MULTIPLE-VALUE-CALL FUNCTION SETQ THE IF ; ==> ; (= CL-PPCRE::MATCH-START CL-PPCRE::MATCH-END) ; ; note: unable to ; open-code FLOAT to RATIONAL comparison ; due to type uncertainty: ; The first argument is a NUMBER, not a FLOAT. ; The second argument is a NUMBER, not a RATIONAL. ; ; note: unable to open code because: The operands might not be the same type. ; --> LET BLOCK LET* LOOP BLOCK TAGBODY PROGN MULTIPLE-VALUE-BIND ; --> MULTIPLE-VALUE-CALL FUNCTION SETQ THE IF 1+ ; ==> ; (+ CL-PPCRE::MATCH-END 1) ; ; note: unable to ; associate +/+ of constants ; due to type uncertainty: ; The first argument is a NUMBER, not a RATIONAL. ; ; note: unable to ; associate +/- of constants ; due to type uncertainty: ; The first argument is a NUMBER, not a RATIONAL. ; (> CL-PPCRE::THIS-END CL-PPCRE::THIS-START) ; ; note: unable to ; open-code FLOAT to RATIONAL comparison ; due to type uncertainty: ; The first argument is a REAL, not a FLOAT. ; The second argument is a REAL, not a RATIONAL. ; (LENGTH CL-PPCRE::TARGET-STRING) ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a (SIMPLE-ARRAY * (*)). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a VECTOR. ; (CL-PPCRE:DO-SCANS (CL-PPCRE::MATCH-START CL-PPCRE::MATCH-END ; CL-PPCRE::REG-STARTS CL-PPCRE::REG-ENDS CL-PPCRE::REGEX ; CL-PPCRE::TARGET-STRING NIL :START CL-PPCRE::START :END ; CL-PPCRE::END) ; (UNLESS ; (AND (= CL-PPCRE::MATCH-START CL-PPCRE::MATCH-END) ; (= CL-PPCRE::MATCH-START (CAR CL-PPCRE::POS-LIST))) ; (WHEN (AND CL-PPCRE::LIMIT (>= # CL-PPCRE::LIMIT)) (RETURN)) ; (PUSH CL-PPCRE::MATCH-START CL-PPCRE::POS-LIST) ; (WHEN CL-PPCRE::WITH-REGISTERS-P ; (LOOP CL-PPCRE::FOR CL-PPCRE::REG-START CL-PPCRE::ACROSS CL-PPCRE::REG-STARTS ; CL-PPCRE::FOR CL-PPCRE::REG-END CL-PPCRE::ACROSS CL-PPCRE::REG-ENDS ; IF CL-PPCRE::REG-START ; DO ...)) ; (PUSH CL-PPCRE::MATCH-END CL-PPCRE::POS-LIST))) ; --> LET BLOCK LET* OR LET IF OR THE ; ==> ; (LENGTH #:TARGET-STRING1107) ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a (SIMPLE-ARRAY * (*)). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a VECTOR. ; --> LET BLOCK LET* SETQ THE CL-PPCRE::MAYBE-COERCE-TO-SIMPLE-STRING LET COND ; --> IF COND THE PROGN COERCE THE IF REPLACE MAKE-ARRAY LOCALLY MAKE-ARRAY ; ==> ; (LENGTH SB-C::X) ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a (SIMPLE-ARRAY * (*)). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a VECTOR. ; --> LET BLOCK LET* SETQ THE CL-PPCRE::MAYBE-COERCE-TO-SIMPLE-STRING LET COND ; --> IF COND THE PROGN COERCE THE IF ; ==> ; (REPLACE (MAKE-ARRAY (LENGTH SB-C::X) :ELEMENT-TYPE 'CHARACTER) SB-C::X) ; ; note: unable to ; optimize ; due to type uncertainty: ; The second argument is a SEQUENCE, not a (SIMPLE-ARRAY CHARACTER (*)). ; ; note: unable to ; optimize ; due to type uncertainty: ; The second argument is a SEQUENCE, not a SIMPLE-BASE-STRING. ; (>= (INCF CL-PPCRE::COUNTER) CL-PPCRE::LIMIT) ; --> OR LET IF OR THE = IF ; ==> ; (= SB-C::X SB-C::Y) ; ; note: unable to open code because: The operands might not be the same type. ; (= CL-PPCRE::MATCH-START CL-PPCRE::MATCH-END) ; ; note: forced to do GENERIC-= (cost 10) ; unable to do inline float comparison (cost 3) because: ; The first argument is a NUMBER, not a DOUBLE-FLOAT. ; The second argument is a NUMBER, not a (COMPLEX DOUBLE-FLOAT). ; unable to do inline float comparison (cost 3) because: ; The first argument is a NUMBER, not a (COMPLEX DOUBLE-FLOAT). ; The second argument is a NUMBER, not a (COMPLEX DOUBLE-FLOAT). ; etc. ; (= CL-PPCRE::MATCH-START (CAR CL-PPCRE::POS-LIST)) ; ; note: forced to do GENERIC-= (cost 10) ; unable to do inline float comparison (cost 3) because: ; The first argument is a NUMBER, not a DOUBLE-FLOAT. ; The second argument is a NUMBER, not a (COMPLEX DOUBLE-FLOAT). ; unable to do inline float comparison (cost 3) because: ; The first argument is a NUMBER, not a (COMPLEX DOUBLE-FLOAT). ; The second argument is a NUMBER, not a (COMPLEX DOUBLE-FLOAT). ; etc. ; (INCF CL-PPCRE::COUNTER) ; --> SETQ THE ; ==> ; (+ 1 CL-PPCRE::COUNTER) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline fixnum arithmetic (cost 1) because: ; The first argument is a UNSIGNED-BYTE, not a FIXNUM. ; The result is a (VALUES (INTEGER 1) &OPTIONAL), not a (VALUES FIXNUM ; &REST T). ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a UNSIGNED-BYTE, not a FIXNUM. ; The result is a (VALUES (INTEGER 1) &OPTIONAL), not a (VALUES FIXNUM ; &REST T). ; etc. ; (>= (INCF CL-PPCRE::COUNTER) CL-PPCRE::LIMIT) ; --> OR LET > IF ; ==> ; (> SB-C::X SB-C::Y) ; ; note: forced to do GENERIC-> (cost 10) ; unable to do inline fixnum comparison (cost 4) because: ; The first argument is a (INTEGER 1), not a FIXNUM. ; The second argument is a REAL, not a FIXNUM. ; (CL-PPCRE:DO-SCANS (CL-PPCRE::MATCH-START CL-PPCRE::MATCH-END ; CL-PPCRE::REG-STARTS CL-PPCRE::REG-ENDS CL-PPCRE::REGEX ; CL-PPCRE::TARGET-STRING NIL :START CL-PPCRE::START :END ; CL-PPCRE::END) ; (UNLESS ; (AND (= CL-PPCRE::MATCH-START CL-PPCRE::MATCH-END) ; (= CL-PPCRE::MATCH-START (CAR CL-PPCRE::POS-LIST))) ; (WHEN (AND CL-PPCRE::LIMIT (>= # CL-PPCRE::LIMIT)) (RETURN)) ; (PUSH CL-PPCRE::MATCH-START CL-PPCRE::POS-LIST) ; (WHEN CL-PPCRE::WITH-REGISTERS-P ; (LOOP CL-PPCRE::FOR CL-PPCRE::REG-START CL-PPCRE::ACROSS CL-PPCRE::REG-STARTS ; CL-PPCRE::FOR CL-PPCRE::REG-END CL-PPCRE::ACROSS CL-PPCRE::REG-ENDS ; IF CL-PPCRE::REG-START ; DO ...)) ; (PUSH CL-PPCRE::MATCH-END CL-PPCRE::POS-LIST))) ; --> LET BLOCK LET* LOOP BLOCK TAGBODY PROGN MULTIPLE-VALUE-BIND ; --> MULTIPLE-VALUE-CALL FUNCTION SETQ THE IF ; ==> ; (= CL-PPCRE::MATCH-START CL-PPCRE::MATCH-END) ; ; note: forced to do GENERIC-= (cost 10) ; unable to do inline float comparison (cost 3) because: ; The first argument is a NUMBER, not a DOUBLE-FLOAT. ; The second argument is a NUMBER, not a (COMPLEX DOUBLE-FLOAT). ; unable to do inline float comparison (cost 3) because: ; The first argument is a NUMBER, not a (COMPLEX DOUBLE-FLOAT). ; The second argument is a NUMBER, not a (COMPLEX DOUBLE-FLOAT). ; etc. ; --> LET BLOCK LET* LOOP BLOCK TAGBODY PROGN MULTIPLE-VALUE-BIND ; --> MULTIPLE-VALUE-CALL FUNCTION SETQ THE IF 1+ ; ==> ; (+ CL-PPCRE::MATCH-END 1) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline fixnum arithmetic (cost 1) because: ; The first argument is a NUMBER, not a FIXNUM. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a NUMBER, not a FIXNUM. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES FIXNUM &REST T). ; etc. ; (> CL-PPCRE::THIS-END CL-PPCRE::THIS-START) ; ; note: forced to do GENERIC-> (cost 10) ; unable to do inline float comparison (cost 3) because: ; The first argument is a REAL, not a SINGLE-FLOAT. ; The second argument is a REAL, not a SINGLE-FLOAT. ; unable to do inline float comparison (cost 3) because: ; The first argument is a REAL, not a DOUBLE-FLOAT. ; The second argument is a REAL, not a DOUBLE-FLOAT. ; etc. ; compiling (DEFINE-COMPILER-MACRO SPLIT ...) ; compiling (DEFUN STRING-CASE-MODIFIER ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/api.lisp ; in: DEFUN STRING-CASE-MODIFIER ; (CHAR CL-PPCRE::STR (1- CL-PPCRE::FROM)) ; --> AREF ; ==> ; (SB-KERNEL:HAIRY-DATA-VECTOR-REF ARRAY SB-INT:INDEX) ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a STRING, not a SIMPLE-STRING. ; ; note: unable to ; avoid runtime dispatch on array element type ; due to type uncertainty: ; The first argument is a STRING, not a SIMPLE-ARRAY. ; (CHAR CL-PPCRE::STR CL-PPCRE::FROM) ; --> AREF ; ==> ; (SB-KERNEL:HAIRY-DATA-VECTOR-REF ARRAY SB-INT:INDEX) ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a STRING, not a SIMPLE-STRING. ; ; note: unable to ; avoid runtime dispatch on array element type ; due to type uncertainty: ; The first argument is a STRING, not a SIMPLE-ARRAY. ; (CHAR CL-PPCRE::STR CL-PPCRE::TO) ; --> AREF ; ==> ; (SB-KERNEL:HAIRY-DATA-VECTOR-REF ARRAY SB-INT:INDEX) ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a STRING, not a SIMPLE-STRING. ; ; note: unable to ; avoid runtime dispatch on array element type ; due to type uncertainty: ; The first argument is a STRING, not a SIMPLE-ARRAY. ; (CHAR CL-PPCRE::STR (1- CL-PPCRE::TO)) ; --> AREF ; ==> ; (SB-KERNEL:HAIRY-DATA-VECTOR-REF ARRAY SB-INT:INDEX) ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a STRING, not a SIMPLE-STRING. ; ; note: unable to ; avoid runtime dispatch on array element type ; due to type uncertainty: ; The first argument is a STRING, not a SIMPLE-ARRAY. ; (CHAR CL-PPCRE::STR CL-PPCRE::INDEX) ; --> AREF ; ==> ; (SB-KERNEL:HAIRY-DATA-VECTOR-REF ARRAY SB-INT:INDEX) ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a STRING, not a SIMPLE-STRING. ; ; note: unable to ; avoid runtime dispatch on array element type ; due to type uncertainty: ; The first argument is a STRING, not a SIMPLE-ARRAY. ; compiling (DEFGENERIC BUILD-REPLACEMENT-TEMPLATE ...) ; compiling (LET* (# #) ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/api.lisp ; in: DEFMETHOD BUILD-REPLACEMENT-TEMPLATE (STRING) ; (POSITION-IF #'CL-PPCRE::DIGIT-CHAR-P CL-PPCRE::REPLACEMENT-STRING :START ; CL-PPCRE::MATCH-START :END CL-PPCRE::MATCH-END) ; --> NTH-VALUE MULTIPLE-VALUE-BIND MULTIPLE-VALUE-CALL ; ==> ; (SB-KERNEL:%FIND-POSITION-IF ; (SB-KERNEL:%COERCE-CALLABLE-TO-FUN SB-C::PREDICATE) SEQUENCE SB-C::FROM-END ; SB-C::START SB-C::END (SB-KERNEL:EFFECTIVE-FIND-POSITION-KEY SB-C::KEY)) ; ; note: unable to ; expand inline ; because: ; upgraded array element type not known at compile time ; (CHAR CL-PPCRE::REPLACEMENT-STRING (1+ CL-PPCRE::MATCH-START)) ; --> AREF ; ==> ; (SB-KERNEL:HAIRY-DATA-VECTOR-REF ARRAY SB-INT:INDEX) ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a STRING, not a SIMPLE-STRING. ; ; note: unable to ; avoid runtime dispatch on array element type ; due to type uncertainty: ; The first argument is a STRING, not a SIMPLE-ARRAY. ; (CL-PPCRE:DO-MATCHES (CL-PPCRE::MATCH-START CL-PPCRE::MATCH-END ; CL-PPCRE::REG-SCANNER CL-PPCRE::REPLACEMENT-STRING) ; (WHEN (< CL-PPCRE::FROM CL-PPCRE::MATCH-START) ; (PUSH ; (SUBSEQ CL-PPCRE::REPLACEMENT-STRING CL-PPCRE::FROM ; CL-PPCRE::MATCH-START) ; CL-PPCRE::COLLECTOR)) ; (LET* ((CL-PPCRE::PARSE-START ; (POSITION-IF #'CL-PPCRE::DIGIT-CHAR-P CL-PPCRE::REPLACEMENT-STRING ; :START CL-PPCRE::MATCH-START :END ; CL-PPCRE::MATCH-END)) ; (CL-PPCRE::TOKEN ; (IF CL-PPCRE::PARSE-START ; # ; #))) ; (WHEN (AND (NUMBERP CL-PPCRE::TOKEN) (< CL-PPCRE::TOKEN 0)) ; (CL-PPCRE::SIGNAL-INVOCATION-ERROR ; "Illegal substring ~S in replacement string." ; (SUBSEQ CL-PPCRE::REPLACEMENT-STRING CL-PPCRE::MATCH-START ; CL-PPCRE::MATCH-END))) ; (PUSH CL-PPCRE::TOKEN CL-PPCRE::COLLECTOR)) ; (SETQ CL-PPCRE::FROM CL-PPCRE::MATCH-END)) ; --> CL-PPCRE:DO-SCANS LET BLOCK LET* SETQ THE ; --> CL-PPCRE::MAYBE-COERCE-TO-SIMPLE-STRING LET COND IF COND THE PROGN COERCE ; --> THE IF ; ==> ; (REPLACE (MAKE-ARRAY (LENGTH SB-C::X) :ELEMENT-TYPE 'CHARACTER) SB-C::X) ; ; note: unable to ; optimize ; due to type uncertainty: ; The second argument is a STRING, not a (SIMPLE-ARRAY CHARACTER (*)). ; ; note: unable to ; optimize ; due to type uncertainty: ; The second argument is a STRING, not a SIMPLE-BASE-STRING. ; (< CL-PPCRE::FROM CL-PPCRE::MATCH-START) ; ; note: forced to do GENERIC-< (cost 10) ; unable to do inline fixnum comparison (cost 4) because: ; The second argument is a REAL, not a FIXNUM. ; (1- ; (PARSE-INTEGER CL-PPCRE::REPLACEMENT-STRING :START CL-PPCRE::PARSE-START ; :JUNK-ALLOWED T)) ; ==> ; (- ; (PARSE-INTEGER CL-PPCRE::REPLACEMENT-STRING :START CL-PPCRE::PARSE-START ; :JUNK-ALLOWED T) ; 1) ; ; note: forced to do GENERIC-- (cost 10) ; unable to do inline fixnum arithmetic (cost 1) because: ; The first argument is a INTEGER, not a FIXNUM. ; The result is a (VALUES INTEGER &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a INTEGER, not a FIXNUM. ; The result is a (VALUES INTEGER &OPTIONAL), not a (VALUES FIXNUM &REST T). ; etc. ; (< CL-PPCRE::TOKEN 0) ; ; note: forced to do GENERIC-< (cost 10) ; unable to do inline fixnum comparison (cost 3) because: ; The first argument is a INTEGER, not a FIXNUM. ; unable to do inline fixnum comparison (cost 4) because: ; The first argument is a INTEGER, not a FIXNUM. ; etc. ; compiling (DEFMETHOD BUILD-REPLACEMENT-TEMPLATE ...) ; compiling (DEFMETHOD BUILD-REPLACEMENT-TEMPLATE ...) ; compiling (DEFMETHOD BUILD-REPLACEMENT-TEMPLATE ...) ; compiling (DEFUN BUILD-REPLACEMENT ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/api.lisp ; in: DEFUN BUILD-REPLACEMENT ; (ARRAY-DIMENSION CL-PPCRE::REG-STARTS 0) ; ; note: unable to ; optimize ; because: ; The array dimensions are unknown; must call ARRAY-DIMENSION at runtime. ; (MAP 'LIST ; (LAMBDA (CL-PPCRE::REG-START CL-PPCRE::REG-END) ; (AND CL-PPCRE::REG-START ; (CL-PPCRE::NSUBSEQ CL-PPCRE::TARGET-STRING CL-PPCRE::REG-START ; CL-PPCRE::REG-END))) ; CL-PPCRE::REG-STARTS CL-PPCRE::REG-ENDS) ; --> TRULY-THE ; ==> ; (SB-KERNEL:%MAP SB-C::RESULT-TYPE-ARG SB-C::FUN #:G1392 #:G1393) ; ; note: unable to open code because: can't determine sequence argument type ; (APPLY CL-PPCRE::TOKEN ; (CL-PPCRE::NSUBSEQ CL-PPCRE::TARGET-STRING CL-PPCRE::MATCH-START ; CL-PPCRE::MATCH-END) ; (MAP 'LIST ; (LAMBDA (CL-PPCRE::REG-START CL-PPCRE::REG-END) ; (AND CL-PPCRE::REG-START ; (CL-PPCRE::NSUBSEQ CL-PPCRE::TARGET-STRING ; CL-PPCRE::REG-START ; CL-PPCRE::REG-END))) ; CL-PPCRE::REG-STARTS CL-PPCRE::REG-ENDS)) ; --> MULTIPLE-VALUE-CALL ; ==> ; (SB-KERNEL:%COERCE-CALLABLE-TO-FUN CL-PPCRE::TOKEN) ; ; note: unable to ; optimize away possible call to FDEFINITION at runtime ; because: ; not known to be a function ; (MAP 'LIST ; (LAMBDA (CL-PPCRE::REG-START CL-PPCRE::REG-END) ; (AND CL-PPCRE::REG-START ; (CL-PPCRE::NSUBSEQ CL-PPCRE::TARGET-STRING CL-PPCRE::REG-START ; CL-PPCRE::REG-END))) ; CL-PPCRE::REG-STARTS CL-PPCRE::REG-ENDS) ; --> TRULY-THE ; ==> ; (SB-KERNEL:%MAP SB-C::RESULT-TYPE-ARG SB-C::FUN #:G1394 #:G1395) ; ; note: unable to open code because: can't determine sequence argument type ; (FUNCALL CL-PPCRE::TOKEN CL-PPCRE::TARGET-STRING CL-PPCRE::START ; CL-PPCRE::END CL-PPCRE::MATCH-START CL-PPCRE::MATCH-END ; CL-PPCRE::REG-STARTS CL-PPCRE::REG-ENDS) ; --> SB-C::%FUNCALL THE ; ==> ; (SB-KERNEL:%COERCE-CALLABLE-TO-FUN CL-PPCRE::TOKEN) ; ; note: unable to ; optimize away possible call to FDEFINITION at runtime ; because: ; not known to be a function ; (>= CL-PPCRE::TOKEN CL-PPCRE::REG-BOUND) ; --> IF ; ==> ; (< SB-C::X SB-C::Y) ; ; note: forced to do GENERIC-< (cost 10) ; unable to do inline fixnum comparison (cost 4) because: ; The first argument is a INTEGER, not a FIXNUM. ; (1+ CL-PPCRE::TOKEN) ; ==> ; (+ CL-PPCRE::TOKEN 1) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline fixnum arithmetic (cost 1) because: ; The first argument is a UNSIGNED-BYTE, not a FIXNUM. ; The result is a (VALUES (INTEGER 1) &OPTIONAL), not a (VALUES FIXNUM ; &REST T). ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a UNSIGNED-BYTE, not a FIXNUM. ; The result is a (VALUES (INTEGER 1) &OPTIONAL), not a (VALUES FIXNUM ; &REST T). ; etc. ; (CL-PPCRE::NSUBSEQ CL-PPCRE::TARGET-STRING CL-PPCRE::MATCH-START ; CL-PPCRE::MATCH-END) ; --> BLOCK MAKE-ARRAY LOCALLY MAKE-ARRAY ; ==> ; (- CL-PPCRE::END CL-PPCRE::START) ; ; note: forced to do GENERIC-- (cost 10) ; unable to do inline float arithmetic (cost 2) because: ; The first argument is a NUMBER, not a DOUBLE-FLOAT. ; The second argument is a NUMBER, not a DOUBLE-FLOAT. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES DOUBLE-FLOAT ; &REST T). ; unable to do inline float arithmetic (cost 2) because: ; The first argument is a NUMBER, not a SINGLE-FLOAT. ; The second argument is a NUMBER, not a SINGLE-FLOAT. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES SINGLE-FLOAT ; &REST T). ; etc. ; ; note: forced to do GENERIC-- (cost 10) ; unable to do inline float arithmetic (cost 2) because: ; The first argument is a NUMBER, not a DOUBLE-FLOAT. ; The second argument is a NUMBER, not a DOUBLE-FLOAT. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES DOUBLE-FLOAT ; &REST T). ; unable to do inline float arithmetic (cost 2) because: ; The first argument is a NUMBER, not a SINGLE-FLOAT. ; The second argument is a NUMBER, not a SINGLE-FLOAT. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES SINGLE-FLOAT ; &REST T). ; etc. ; (CL-PPCRE::NSUBSEQ CL-PPCRE::TARGET-STRING CL-PPCRE::REG-START ; CL-PPCRE::REG-END) ; --> BLOCK MAKE-ARRAY LOCALLY MAKE-ARRAY ; ==> ; (- CL-PPCRE::END CL-PPCRE::START) ; ; note: forced to do GENERIC-- (cost 10) ; unable to do inline float arithmetic (cost 2) because: ; The first argument is a NUMBER, not a DOUBLE-FLOAT. ; The second argument is a NUMBER, not a DOUBLE-FLOAT. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES DOUBLE-FLOAT ; &REST T). ; unable to do inline float arithmetic (cost 2) because: ; The first argument is a NUMBER, not a SINGLE-FLOAT. ; The second argument is a NUMBER, not a SINGLE-FLOAT. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES SINGLE-FLOAT ; &REST T). ; etc. ; ; note: forced to do GENERIC-- (cost 10) ; unable to do inline float arithmetic (cost 2) because: ; The first argument is a NUMBER, not a DOUBLE-FLOAT. ; The second argument is a NUMBER, not a DOUBLE-FLOAT. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES DOUBLE-FLOAT ; &REST T). ; unable to do inline float arithmetic (cost 2) because: ; The first argument is a NUMBER, not a SINGLE-FLOAT. ; The second argument is a NUMBER, not a SINGLE-FLOAT. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES SINGLE-FLOAT ; &REST T). ; etc. ; compiling (DEFUN REPLACE-AUX ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/api.lisp ; in: DEFUN REPLACE-AUX ; (FUNCALL ; (CL-PPCRE::STRING-CASE-MODIFIER CL-PPCRE::TARGET-STRING CL-PPCRE::FROM ; CL-PPCRE::TO CL-PPCRE::START CL-PPCRE::END) ; CL-PPCRE::CURR-REPLACEMENT) ; --> SB-C::%FUNCALL THE ; ==> ; (SB-KERNEL:%COERCE-CALLABLE-TO-FUN ; (CL-PPCRE::STRING-CASE-MODIFIER CL-PPCRE::TARGET-STRING CL-PPCRE::FROM ; CL-PPCRE::TO CL-PPCRE::START CL-PPCRE::END)) ; ; note: unable to ; optimize away possible call to FDEFINITION at runtime ; because: ; not known to be a function ; compiling (DEFUN REGEX-REPLACE ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/api.lisp ; in: DEFUN REGEX-REPLACE ; (LENGTH CL-PPCRE::TARGET-STRING) ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a (SIMPLE-ARRAY * (*)). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a VECTOR. ; (SUBSEQ CL-PPCRE::TARGET-STRING CL-PPCRE::START CL-PPCRE::END) ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a VECTOR. ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a LIST. ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a SB-KERNEL:EXTENDED-SEQUENCE. ; compiling (DEFINE-COMPILER-MACRO REGEX-REPLACE ...) ; compiling (DEFUN REGEX-REPLACE-ALL ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/api.lisp ; in: DEFUN REGEX-REPLACE-ALL ; (CL-PPCRE:DO-SCANS (CL-PPCRE::MATCH-START CL-PPCRE::MATCH-END ; CL-PPCRE::REG-STARTS CL-PPCRE::REG-ENDS CL-PPCRE::REGEX ; CL-PPCRE::TARGET-STRING NIL :START CL-PPCRE::START :END ; CL-PPCRE::END) ; (PUSH CL-PPCRE::MATCH-START CL-PPCRE::POS-LIST) ; (PUSH CL-PPCRE::MATCH-END CL-PPCRE::POS-LIST) ; (PUSH CL-PPCRE::REG-STARTS CL-PPCRE::REG-LIST) ; (PUSH CL-PPCRE::REG-ENDS CL-PPCRE::REG-LIST)) ; --> LET BLOCK LET* LOOP BLOCK TAGBODY PROGN MULTIPLE-VALUE-BIND ; --> MULTIPLE-VALUE-CALL FUNCTION SETQ THE IF ; ==> ; (= CL-PPCRE::MATCH-START CL-PPCRE::MATCH-END) ; ; note: unable to ; open-code FLOAT to RATIONAL comparison ; due to type uncertainty: ; The first argument is a NUMBER, not a FLOAT. ; The second argument is a NUMBER, not a RATIONAL. ; ; note: unable to open code because: The operands might not be the same type. ; --> LET BLOCK LET* LOOP BLOCK TAGBODY PROGN MULTIPLE-VALUE-BIND ; --> MULTIPLE-VALUE-CALL FUNCTION SETQ THE IF 1+ ; ==> ; (+ CL-PPCRE::MATCH-END 1) ; ; note: unable to ; associate +/+ of constants ; due to type uncertainty: ; The first argument is a NUMBER, not a RATIONAL. ; ; note: unable to ; associate +/- of constants ; due to type uncertainty: ; The first argument is a NUMBER, not a RATIONAL. ; (SUBSEQ CL-PPCRE::TARGET-STRING CL-PPCRE::START CL-PPCRE::END) ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a VECTOR. ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a LIST. ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a SB-KERNEL:EXTENDED-SEQUENCE. ; (LENGTH CL-PPCRE::TARGET-STRING) ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a (SIMPLE-ARRAY * (*)). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a VECTOR. ; (CL-PPCRE:DO-SCANS (CL-PPCRE::MATCH-START CL-PPCRE::MATCH-END ; CL-PPCRE::REG-STARTS CL-PPCRE::REG-ENDS CL-PPCRE::REGEX ; CL-PPCRE::TARGET-STRING NIL :START CL-PPCRE::START :END ; CL-PPCRE::END) ; (PUSH CL-PPCRE::MATCH-START CL-PPCRE::POS-LIST) ; (PUSH CL-PPCRE::MATCH-END CL-PPCRE::POS-LIST) ; (PUSH CL-PPCRE::REG-STARTS CL-PPCRE::REG-LIST) ; (PUSH CL-PPCRE::REG-ENDS CL-PPCRE::REG-LIST)) ; --> LET BLOCK LET* OR LET IF OR THE ; ==> ; (LENGTH #:TARGET-STRING1505) ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a (SIMPLE-ARRAY * (*)). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a VECTOR. ; --> LET BLOCK LET* SETQ THE CL-PPCRE::MAYBE-COERCE-TO-SIMPLE-STRING LET COND ; --> IF COND THE PROGN COERCE THE IF REPLACE MAKE-ARRAY LOCALLY MAKE-ARRAY ; ==> ; (LENGTH SB-C::X) ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a (SIMPLE-ARRAY * (*)). ; ; note: unable to ; optimize ; due to type uncertainty: ; The first argument is a SEQUENCE, not a VECTOR. ; --> LET BLOCK LET* SETQ THE CL-PPCRE::MAYBE-COERCE-TO-SIMPLE-STRING LET COND ; --> IF COND THE PROGN COERCE THE IF ; ==> ; (REPLACE (MAKE-ARRAY (LENGTH SB-C::X) :ELEMENT-TYPE 'CHARACTER) SB-C::X) ; ; note: unable to ; optimize ; due to type uncertainty: ; The second argument is a SEQUENCE, not a (SIMPLE-ARRAY CHARACTER (*)). ; ; note: unable to ; optimize ; due to type uncertainty: ; The second argument is a SEQUENCE, not a SIMPLE-BASE-STRING. ; --> LET BLOCK LET* LOOP BLOCK TAGBODY PROGN MULTIPLE-VALUE-BIND ; --> MULTIPLE-VALUE-CALL FUNCTION SETQ THE IF ; ==> ; (= CL-PPCRE::MATCH-START CL-PPCRE::MATCH-END) ; ; note: forced to do GENERIC-= (cost 10) ; unable to do inline float comparison (cost 3) because: ; The first argument is a NUMBER, not a DOUBLE-FLOAT. ; The second argument is a NUMBER, not a (COMPLEX DOUBLE-FLOAT). ; unable to do inline float comparison (cost 3) because: ; The first argument is a NUMBER, not a (COMPLEX DOUBLE-FLOAT). ; The second argument is a NUMBER, not a (COMPLEX DOUBLE-FLOAT). ; etc. ; --> LET BLOCK LET* LOOP BLOCK TAGBODY PROGN MULTIPLE-VALUE-BIND ; --> MULTIPLE-VALUE-CALL FUNCTION SETQ THE IF 1+ ; ==> ; (+ CL-PPCRE::MATCH-END 1) ; ; note: forced to do GENERIC-+ (cost 10) ; unable to do inline fixnum arithmetic (cost 1) because: ; The first argument is a NUMBER, not a FIXNUM. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES FIXNUM &REST T). ; unable to do inline fixnum arithmetic (cost 2) because: ; The first argument is a NUMBER, not a FIXNUM. ; The result is a (VALUES NUMBER &OPTIONAL), not a (VALUES FIXNUM &REST T). ; etc. ; compiling (DEFINE-COMPILER-MACRO REGEX-REPLACE-ALL ...) ; compiling (DEFMACRO REGEX-APROPOS-AUX ...) ; compiling (DEFUN REGEX-APROPOS-LIST ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/api.lisp ; in: DEFUN REGEX-APROPOS-LIST ; (DEFUN CL-PPCRE:REGEX-APROPOS-LIST ; (CL-PPCRE::REGEX ; &OPTIONAL CL-PPCRE::PACKAGES ; &KEY (CL-PPCRE::CASE-INSENSITIVE T)) ; (DECLARE ; (OPTIMIZE SPEED (SAFETY 0) (SPACE 0) (DEBUG 1) (COMPILATION-SPEED 0))) ; "Similar to the standard function APROPOS-LIST but returns a list of ; all symbols which match the regular expression REGEX. If ; CASE-INSENSITIVE is true and REGEX isn't already a scanner, a ; case-insensitive scanner is used." ; (LET ((CL-PPCRE::COLLECTOR 'NIL)) ; (CL-PPCRE::REGEX-APROPOS-AUX (CL-PPCRE::REGEX CL-PPCRE::PACKAGES ; CL-PPCRE::CASE-INSENSITIVE ; CL-PPCRE::COLLECTOR) ; (PUSH SYMBOL CL-PPCRE::COLLECTOR)))) ; --> PROGN SB-IMPL::%DEFUN SB-IMPL::%DEFUN SB-INT:NAMED-LAMBDA ; ==> ; #'(SB-INT:NAMED-LAMBDA CL-PPCRE:REGEX-APROPOS-LIST ; (CL-PPCRE::REGEX &OPTIONAL CL-PPCRE::PACKAGES &KEY ; (CL-PPCRE::CASE-INSENSITIVE T)) ; "Similar to the standard function APROPOS-LIST but returns a list of ; all symbols which match the regular expression REGEX. If ; CASE-INSENSITIVE is true and REGEX isn't already a scanner, a ; case-insensitive scanner is used." ; (DECLARE ; (OPTIMIZE SPEED (SAFETY 0) (SPACE 0) (DEBUG 1) (COMPILATION-SPEED 0))) ; (BLOCK CL-PPCRE:REGEX-APROPOS-LIST ; (LET ((CL-PPCRE::COLLECTOR 'NIL)) ; (CL-PPCRE::REGEX-APROPOS-AUX (CL-PPCRE::REGEX CL-PPCRE::PACKAGES ; CL-PPCRE::CASE-INSENSITIVE ; CL-PPCRE::COLLECTOR) ; (PUSH SYMBOL CL-PPCRE::COLLECTOR))))) ; ; caught STYLE-WARNING: ; &OPTIONAL and &KEY found in the same lambda list: (REGEX &OPTIONAL PACKAGES ; &KEY ; (CASE-INSENSITIVE T)) ; compiling (DEFUN PRINT-SYMBOL-INFO ...) ; compiling (DEFUN REGEX-APROPOS ...) ; file: /usr/local/lib/common-lisp/cl-ppcre/api.lisp ; in: DEFUN REGEX-APROPOS ; (DEFUN CL-PPCRE:REGEX-APROPOS ; (CL-PPCRE::REGEX ; &OPTIONAL CL-PPCRE::PACKAGES ; &KEY (CL-PPCRE::CASE-INSENSITIVE T)) ; "Similar to the standard function APROPOS but returns a list of all ; symbols which match the regular expression REGEX. If CASE-INSENSITIVE ; is true and REGEX isn't already a scanner, a case-insensitive scanner ; is used." ; (DECLARE ; (OPTIMIZE SPEED (SAFETY 0) (SPACE 0) (DEBUG 1) (COMPILATION-SPEED 0))) ; (CL-PPCRE::REGEX-APROPOS-AUX (CL-PPCRE::REGEX CL-PPCRE::PACKAGES ; CL-PPCRE::CASE-INSENSITIVE) ; (CL-PPCRE::PRINT-SYMBOL-INFO SYMBOL)) ; (VALUES)) ; --> PROGN SB-IMPL::%DEFUN SB-IMPL::%DEFUN SB-INT:NAMED-LAMBDA ; ==> ; #'(SB-INT:NAMED-LAMBDA CL-PPCRE:REGEX-APROPOS ; (CL-PPCRE::REGEX &OPTIONAL CL-PPCRE::PACKAGES &KEY ; (CL-PPCRE::CASE-INSENSITIVE T)) ; "Similar to the standard function APROPOS but returns a list of all ; symbols which match the regular expression REGEX. If CASE-INSENSITIVE ; is true and REGEX isn't already a scanner, a case-insensitive scanner ; is used." ; (DECLARE ; (OPTIMIZE SPEED (SAFETY 0) (SPACE 0) (DEBUG 1) (COMPILATION-SPEED 0))) ; (BLOCK CL-PPCRE:REGEX-APROPOS ; (CL-PPCRE::REGEX-APROPOS-AUX (CL-PPCRE::REGEX CL-PPCRE::PACKAGES ; CL-PPCRE::CASE-INSENSITIVE) ; (CL-PPCRE::PRINT-SYMBOL-INFO SYMBOL)) ; (VALUES))) ; ; caught STYLE-WARNING: ; &OPTIONAL and &KEY found in the same lambda list: (REGEX &OPTIONAL PACKAGES ; &KEY ; (CASE-INSENSITIVE T)) ; compiling (LET* (# #) ...) ; compiling (LET* (# # ...) ...) ; compiling (LET* (# # ...) ...) ; compiling (DEFUN PARSE-TREE-SYNONYM ...) ; compiling (DEFUN (SETF PARSE-TREE-SYNONYM) ...) ; compiling (DEFMACRO DEFINE-PARSE-TREE-SYNONYM ...) ; /wrkdirs/textproc/cl-ppcre-sbcl/cl-ppcre-2.0.3/api-TMP.fasl written ; compilation finished in 0:00:00.512 WARNING: Lisp compilation had style-warnings while compiling # ; ; compilation unit finished ; caught 7 STYLE-WARNING conditions ; printed 711 notes =========================================================================== =================================================== ===> cl-ppcre-sbcl-2.0.3_12 depends on file: /usr/local/lib/common-lisp/cl-ppcre/cl-ppcre.asd - found ===> cl-ppcre-sbcl-2.0.3_12 depends on executable: sbcl - found =========================================================================== =================================================== ===> Staging for cl-ppcre-sbcl-2.0.3_12 ===> Generating temporary packing list ====> Compressing man pages (compress-man) =========================================================================== =================================================== ===> Building package for cl-ppcre-sbcl-2.0.3_12 file sizes/checksums [17]: . done packing files [17]: . done packing directories [0]: . done =========================================================================== => Cleaning up wrkdir ===> Cleaning for cl-ppcre-sbcl-2.0.3_12 build of textproc/cl-ppcre-sbcl ended at Sun Oct 9 14:27:18 PDT 2016 build time: 00:00:12