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/*
* [The "BSD licence"]
* Copyright (c) 2010 Ben Gruver
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. The name of the author may not be used to endorse or promote products
* derived from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
* IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
* NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
* THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
parser grammar smaliParser;
options {
output=AST;
ASTLabelType=CommonTree;
}
tokens {
//Lexer tokens
ACCESS_SPEC;
ANNOTATION_DIRECTIVE;
ANNOTATION_VISIBILITY;
ARRAY_DATA_DIRECTIVE;
ARRAY_TYPE_PREFIX;
ARROW;
AT;
BOOL_LITERAL;
BYTE_LITERAL;
CATCH_DIRECTIVE;
CATCHALL_DIRECTIVE;
CHAR_LITERAL;
CLASS_DESCRIPTOR;
CLASS_DIRECTIVE;
CLOSE_BRACE;
CLOSE_PAREN;
COLON;
COMMA;
DOTDOT;
DOUBLE_LITERAL;
DOUBLE_LITERAL_OR_ID;
END_ANNOTATION_DIRECTIVE;
END_ARRAY_DATA_DIRECTIVE;
END_FIELD_DIRECTIVE;
END_LOCAL_DIRECTIVE;
END_METHOD_DIRECTIVE;
END_PACKED_SWITCH_DIRECTIVE;
END_PARAMETER_DIRECTIVE;
END_SPARSE_SWITCH_DIRECTIVE;
END_SUBANNOTATION_DIRECTIVE;
ENUM_DIRECTIVE;
EPILOGUE_DIRECTIVE;
EQUAL;
FIELD_DIRECTIVE;
FIELD_OFFSET;
FLOAT_LITERAL;
FLOAT_LITERAL_OR_ID;
IMPLEMENTS_DIRECTIVE;
INLINE_INDEX;
INSTRUCTION_FORMAT10t;
INSTRUCTION_FORMAT10x;
INSTRUCTION_FORMAT10x_ODEX;
INSTRUCTION_FORMAT11n;
INSTRUCTION_FORMAT11x;
INSTRUCTION_FORMAT12x;
INSTRUCTION_FORMAT12x_OR_ID;
INSTRUCTION_FORMAT20bc;
INSTRUCTION_FORMAT20t;
INSTRUCTION_FORMAT21c_FIELD;
INSTRUCTION_FORMAT21c_FIELD_ODEX;
INSTRUCTION_FORMAT21c_STRING;
INSTRUCTION_FORMAT21c_TYPE;
INSTRUCTION_FORMAT21ih;
INSTRUCTION_FORMAT21lh;
INSTRUCTION_FORMAT21s;
INSTRUCTION_FORMAT21t;
INSTRUCTION_FORMAT22b;
INSTRUCTION_FORMAT22c_FIELD;
INSTRUCTION_FORMAT22c_FIELD_ODEX;
INSTRUCTION_FORMAT22c_TYPE;
INSTRUCTION_FORMAT22cs_FIELD;
INSTRUCTION_FORMAT22s;
INSTRUCTION_FORMAT22s_OR_ID;
INSTRUCTION_FORMAT22t;
INSTRUCTION_FORMAT22x;
INSTRUCTION_FORMAT23x;
INSTRUCTION_FORMAT30t;
INSTRUCTION_FORMAT31c;
INSTRUCTION_FORMAT31i;
INSTRUCTION_FORMAT31i_OR_ID;
INSTRUCTION_FORMAT31t;
INSTRUCTION_FORMAT32x;
INSTRUCTION_FORMAT35c_CALL_SITE;
INSTRUCTION_FORMAT35c_METHOD;
INSTRUCTION_FORMAT35c_METHOD_ODEX;
INSTRUCTION_FORMAT35c_TYPE;
INSTRUCTION_FORMAT35mi_METHOD;
INSTRUCTION_FORMAT35ms_METHOD;
INSTRUCTION_FORMAT3rc_CALL_SITE;
INSTRUCTION_FORMAT3rc_METHOD;
INSTRUCTION_FORMAT3rc_METHOD_ODEX;
INSTRUCTION_FORMAT3rc_TYPE;
INSTRUCTION_FORMAT3rmi_METHOD;
INSTRUCTION_FORMAT3rms_METHOD;
INSTRUCTION_FORMAT45cc_METHOD;
INSTRUCTION_FORMAT4rcc_METHOD;
INSTRUCTION_FORMAT51l;
LINE_COMMENT;
LINE_DIRECTIVE;
LOCAL_DIRECTIVE;
LOCALS_DIRECTIVE;
LONG_LITERAL;
METHOD_DIRECTIVE;
METHOD_HANDLE_TYPE_FIELD;
METHOD_HANDLE_TYPE_METHOD;
MEMBER_NAME;
NEGATIVE_INTEGER_LITERAL;
NULL_LITERAL;
OPEN_BRACE;
OPEN_PAREN;
PACKED_SWITCH_DIRECTIVE;
PARAM_LIST_OR_ID_PRIMITIVE_TYPE;
PARAMETER_DIRECTIVE;
POSITIVE_INTEGER_LITERAL;
PRIMITIVE_TYPE;
PROLOGUE_DIRECTIVE;
REGISTER;
REGISTERS_DIRECTIVE;
RESTART_LOCAL_DIRECTIVE;
SHORT_LITERAL;
SIMPLE_NAME;
SOURCE_DIRECTIVE;
SPARSE_SWITCH_DIRECTIVE;
STRING_LITERAL;
SUBANNOTATION_DIRECTIVE;
SUPER_DIRECTIVE;
VERIFICATION_ERROR_TYPE;
VOID_TYPE;
VTABLE_INDEX;
WHITE_SPACE;
// misc non-lexer tokens
INTEGER_LITERAL;
INVALID_TOKEN;
//I_* tokens are imaginary tokens used as parent AST nodes
I_CLASS_DEF;
I_SUPER;
I_IMPLEMENTS;
I_SOURCE;
I_ACCESS_LIST;
I_METHODS;
I_FIELDS;
I_FIELD;
I_FIELD_TYPE;
I_FIELD_INITIAL_VALUE;
I_METHOD;
I_METHOD_PROTOTYPE;
I_METHOD_RETURN_TYPE;
I_REGISTERS;
I_LOCALS;
I_LABEL;
I_ANNOTATIONS;
I_ANNOTATION;
I_ANNOTATION_ELEMENT;
I_SUBANNOTATION;
I_ENCODED_METHOD_HANDLE;
I_ENCODED_FIELD;
I_ENCODED_METHOD;
I_ENCODED_ENUM;
I_ENCODED_ARRAY;
I_ARRAY_ELEMENT_SIZE;
I_ARRAY_ELEMENTS;
I_PACKED_SWITCH_START_KEY;
I_PACKED_SWITCH_ELEMENTS;
I_SPARSE_SWITCH_ELEMENTS;
I_CATCH;
I_CATCHALL;
I_CATCHES;
I_PARAMETER;
I_PARAMETERS;
I_PARAMETER_NOT_SPECIFIED;
I_LINE;
I_LOCAL;
I_END_LOCAL;
I_RESTART_LOCAL;
I_PROLOGUE;
I_EPILOGUE;
I_ORDERED_METHOD_ITEMS;
I_STATEMENT_FORMAT10t;
I_STATEMENT_FORMAT10x;
I_STATEMENT_FORMAT11n;
I_STATEMENT_FORMAT11x;
I_STATEMENT_FORMAT12x;
I_STATEMENT_FORMAT20bc;
I_STATEMENT_FORMAT20t;
I_STATEMENT_FORMAT21c_TYPE;
I_STATEMENT_FORMAT21c_FIELD;
I_STATEMENT_FORMAT21c_STRING;
I_STATEMENT_FORMAT21c_METHOD_HANDLE;
I_STATEMENT_FORMAT21c_METHOD_TYPE;
I_STATEMENT_FORMAT21ih;
I_STATEMENT_FORMAT21lh;
I_STATEMENT_FORMAT21s;
I_STATEMENT_FORMAT21t;
I_STATEMENT_FORMAT22b;
I_STATEMENT_FORMAT22c_FIELD;
I_STATEMENT_FORMAT22c_TYPE;
I_STATEMENT_FORMAT22s;
I_STATEMENT_FORMAT22t;
I_STATEMENT_FORMAT22x;
I_STATEMENT_FORMAT23x;
I_STATEMENT_FORMAT30t;
I_STATEMENT_FORMAT31c;
I_STATEMENT_FORMAT31i;
I_STATEMENT_FORMAT31t;
I_STATEMENT_FORMAT32x;
I_STATEMENT_FORMAT35c_CALL_SITE;
I_STATEMENT_FORMAT35c_METHOD;
I_STATEMENT_FORMAT35c_TYPE;
I_STATEMENT_FORMAT3rc_CALL_SITE;
I_STATEMENT_FORMAT3rc_METHOD;
I_STATEMENT_FORMAT3rc_TYPE;
I_STATEMENT_FORMAT45cc_METHOD;
I_STATEMENT_FORMAT4rcc_METHOD;
I_STATEMENT_FORMAT51l;
I_STATEMENT_ARRAY_DATA;
I_STATEMENT_PACKED_SWITCH;
I_STATEMENT_SPARSE_SWITCH;
I_REGISTER_RANGE;
I_REGISTER_LIST;
I_CALL_SITE_EXTRA_ARGUMENTS;
I_CALL_SITE_REFERENCE;
}
@header {
package org.jf.smali;
import org.jf.dexlib2.Opcode;
import org.jf.dexlib2.Opcodes;
}
@members {
public static final int ERROR_CHANNEL = 100;
private boolean verboseErrors = false;
private boolean allowOdex = false;
private int apiLevel = 15;
private Opcodes opcodes = Opcodes.forApi(apiLevel);
public void setVerboseErrors(boolean verboseErrors) {
this.verboseErrors = verboseErrors;
}
public void setAllowOdex(boolean allowOdex) {
this.allowOdex = allowOdex;
}
public void setApiLevel(int apiLevel) {
this.opcodes = Opcodes.forApi(apiLevel);
this.apiLevel = apiLevel;
}
public String getErrorMessage(RecognitionException e,
String[] tokenNames) {
if (verboseErrors) {
List stack = getRuleInvocationStack(e, this.getClass().getName());
String msg = null;
if (e instanceof NoViableAltException) {
NoViableAltException nvae = (NoViableAltException)e;
msg = " no viable alt; token="+getTokenErrorDisplay(e.token)+
" (decision="+nvae.decisionNumber+
" state "+nvae.stateNumber+")"+
" decision=<<"+nvae.grammarDecisionDescription+">>";
} else {
msg = super.getErrorMessage(e, tokenNames);
}
return stack + " " + msg;
} else {
return super.getErrorMessage(e, tokenNames);
}
}
public String getTokenErrorDisplay(Token t) {
if (!verboseErrors) {
String s = t.getText();
if ( s==null ) {
if ( t.getType()==Token.EOF ) {
s = "<EOF>";
}
else {
s = "<"+tokenNames[t.getType()]+">";
}
}
s = s.replaceAll("\n","\\\\n");
s = s.replaceAll("\r","\\\\r");
s = s.replaceAll("\t","\\\\t");
return "'"+s+"'";
}
CommonToken ct = (CommonToken)t;
String channelStr = "";
if (t.getChannel()>0) {
channelStr=",channel="+t.getChannel();
}
String txt = t.getText();
if ( txt!=null ) {
txt = txt.replaceAll("\n","\\\\n");
txt = txt.replaceAll("\r","\\\\r");
txt = txt.replaceAll("\t","\\\\t");
}
else {
txt = "<no text>";
}
return "[@"+t.getTokenIndex()+","+ct.getStartIndex()+":"+ct.getStopIndex()+"='"+txt+"',<"+tokenNames[t.getType()]+">"+channelStr+","+t.getLine()+":"+t.getCharPositionInLine()+"]";
}
public String getErrorHeader(RecognitionException e) {
return getSourceName()+"["+ e.line+","+e.charPositionInLine+"]";
}
private CommonTree buildTree(int type, String text, List<CommonTree> children) {
CommonTree root = new CommonTree(new CommonToken(type, text));
for (CommonTree child: children) {
root.addChild(child);
}
return root;
}
private CommonToken getParamListSubToken(CommonToken baseToken, String str, int typeStartIndex) {
CommonToken token = new CommonToken(baseToken);
token.setStartIndex(baseToken.getStartIndex() + typeStartIndex);
switch (str.charAt(typeStartIndex)) {
case 'Z':
case 'B':
case 'S':
case 'C':
case 'I':
case 'J':
case 'F':
case 'D':
{
token.setType(PRIMITIVE_TYPE);
token.setText(str.substring(typeStartIndex, typeStartIndex+1));
token.setStopIndex(baseToken.getStartIndex() + typeStartIndex);
break;
}
case 'L':
{
int i = typeStartIndex;
while (str.charAt(++i) != ';');
token.setType(CLASS_DESCRIPTOR);
token.setText(str.substring(typeStartIndex, i + 1));
token.setStopIndex(baseToken.getStartIndex() + i);
break;
}
case '[':
{
int i = typeStartIndex;
while (str.charAt(++i) == '[');
token.setType(ARRAY_TYPE_PREFIX);
token.setText(str.substring(typeStartIndex, i));
token.setStopIndex(baseToken.getStartIndex() + i - 1);
break;
}
default:
throw new RuntimeException(String.format("Invalid character '\%c' in param list \"\%s\" at position \%d", str.charAt(typeStartIndex), str, typeStartIndex));
}
return token;
}
private CommonTree parseParamList(CommonToken paramListToken) {
String paramList = paramListToken.getText();
CommonTree root = new CommonTree();
int startIndex = paramListToken.getStartIndex();
int i=0;
while (i<paramList.length()) {
CommonToken token = getParamListSubToken(paramListToken, paramList, i);
root.addChild(new CommonTree(token));
i += token.getText().length();
}
if (root.getChildCount() == 0) {
return null;
}
return root;
}
private void throwOdexedInstructionException(IntStream input, String odexedInstruction)
throws OdexedInstructionException {
/*this has to be done in a separate method, otherwise java will complain about the
auto-generated code in the rule after the throw not being reachable*/
throw new OdexedInstructionException(input, odexedInstruction);
}
}
smali_file
scope
{
boolean hasClassSpec;
boolean hasSuperSpec;
boolean hasSourceSpec;
List<CommonTree> classAnnotations;
}
@init
{ $smali_file::hasClassSpec = $smali_file::hasSuperSpec = $smali_file::hasSourceSpec = false;
$smali_file::classAnnotations = new ArrayList<CommonTree>();
}
:
( {!$smali_file::hasClassSpec}?=> class_spec {$smali_file::hasClassSpec = true;}
| {!$smali_file::hasSuperSpec}?=> super_spec {$smali_file::hasSuperSpec = true;}
| implements_spec
| {!$smali_file::hasSourceSpec}?=> source_spec {$smali_file::hasSourceSpec = true;}
| method
| field
| annotation {$smali_file::classAnnotations.add($annotation.tree);}
)+
EOF
{
if (!$smali_file::hasClassSpec) {
throw new SemanticException(input, "The file must contain a .class directive");
}
if (!$smali_file::hasSuperSpec) {
if (!$class_spec.className.equals("Ljava/lang/Object;")) {
throw new SemanticException(input, "The file must contain a .super directive");
}
}
}
-> ^(I_CLASS_DEF
class_spec
super_spec?
implements_spec*
source_spec?
^(I_METHODS method*) ^(I_FIELDS field*) {buildTree(I_ANNOTATIONS, "I_ANNOTATIONS", $smali_file::classAnnotations)});
class_spec returns[String className]
: CLASS_DIRECTIVE access_list CLASS_DESCRIPTOR {$className = $CLASS_DESCRIPTOR.text;} -> CLASS_DESCRIPTOR access_list;
super_spec
: SUPER_DIRECTIVE CLASS_DESCRIPTOR -> ^(I_SUPER[$start, "I_SUPER"] CLASS_DESCRIPTOR);
implements_spec
: IMPLEMENTS_DIRECTIVE CLASS_DESCRIPTOR -> ^(I_IMPLEMENTS[$start, "I_IMPLEMENTS"] CLASS_DESCRIPTOR);
source_spec
: SOURCE_DIRECTIVE STRING_LITERAL -> ^(I_SOURCE[$start, "I_SOURCE"] STRING_LITERAL);
access_list
: ACCESS_SPEC* -> ^(I_ACCESS_LIST[$start,"I_ACCESS_LIST"] ACCESS_SPEC*);
/*When there are annotations immediately after a field definition, we don't know whether they are field annotations
or class annotations until we determine if there is an .end field directive. In either case, we still "consume" and parse
the annotations. If it turns out that they are field annotations, we include them in the I_FIELD AST. Otherwise, we
add them to the $smali_file::classAnnotations list*/
field
@init {List<CommonTree> annotations = new ArrayList<CommonTree>();}
: FIELD_DIRECTIVE access_list member_name COLON nonvoid_type_descriptor (EQUAL literal)?
( ({input.LA(1) == ANNOTATION_DIRECTIVE}? annotation {annotations.add($annotation.tree);})*
( END_FIELD_DIRECTIVE
-> ^(I_FIELD[$start, "I_FIELD"] member_name access_list ^(I_FIELD_TYPE nonvoid_type_descriptor) ^(I_FIELD_INITIAL_VALUE literal)? ^(I_ANNOTATIONS annotation*))
| /*epsilon*/ {$smali_file::classAnnotations.addAll(annotations);}
-> ^(I_FIELD[$start, "I_FIELD"] member_name access_list ^(I_FIELD_TYPE nonvoid_type_descriptor) ^(I_FIELD_INITIAL_VALUE literal)? ^(I_ANNOTATIONS))
)
);
method
: METHOD_DIRECTIVE access_list member_name method_prototype statements_and_directives
END_METHOD_DIRECTIVE
-> ^(I_METHOD[$start, "I_METHOD"] member_name method_prototype access_list statements_and_directives);
statements_and_directives
scope
{
boolean hasRegistersDirective;
List<CommonTree> methodAnnotations;
}
: {
$statements_and_directives::hasRegistersDirective = false;
$statements_and_directives::methodAnnotations = new ArrayList<CommonTree>();
}
( ordered_method_item
| registers_directive
| catch_directive
| catchall_directive
| parameter_directive
| annotation {$statements_and_directives::methodAnnotations.add($annotation.tree);}
)*
-> registers_directive?
^(I_ORDERED_METHOD_ITEMS ordered_method_item*)
^(I_CATCHES catch_directive* catchall_directive*)
^(I_PARAMETERS parameter_directive*)
{buildTree(I_ANNOTATIONS, "I_ANNOTATIONS", $statements_and_directives::methodAnnotations)};
/* Method items whose order/location is important */
ordered_method_item
: label
| instruction
| debug_directive;
registers_directive
: (
directive=REGISTERS_DIRECTIVE regCount=integral_literal -> ^(I_REGISTERS[$REGISTERS_DIRECTIVE, "I_REGISTERS"] $regCount)
| directive=LOCALS_DIRECTIVE regCount2=integral_literal -> ^(I_LOCALS[$LOCALS_DIRECTIVE, "I_LOCALS"] $regCount2)
)
{
if ($statements_and_directives::hasRegistersDirective) {
throw new SemanticException(input, $directive, "There can only be a single .registers or .locals directive in a method");
}
$statements_and_directives::hasRegistersDirective=true;
};
param_list_or_id
: PARAM_LIST_OR_ID_PRIMITIVE_TYPE+;
/*identifiers are much more general than most languages. Any of the below can either be
the indicated type OR an identifier, depending on the context*/
simple_name
: SIMPLE_NAME
| ACCESS_SPEC -> SIMPLE_NAME[$ACCESS_SPEC]
| VERIFICATION_ERROR_TYPE -> SIMPLE_NAME[$VERIFICATION_ERROR_TYPE]
| POSITIVE_INTEGER_LITERAL -> SIMPLE_NAME[$POSITIVE_INTEGER_LITERAL]
| NEGATIVE_INTEGER_LITERAL -> SIMPLE_NAME[$NEGATIVE_INTEGER_LITERAL]
| FLOAT_LITERAL_OR_ID -> SIMPLE_NAME[$FLOAT_LITERAL_OR_ID]
| DOUBLE_LITERAL_OR_ID -> SIMPLE_NAME[$DOUBLE_LITERAL_OR_ID]
| BOOL_LITERAL -> SIMPLE_NAME[$BOOL_LITERAL]
| NULL_LITERAL -> SIMPLE_NAME[$NULL_LITERAL]
| REGISTER -> SIMPLE_NAME[$REGISTER]
| param_list_or_id -> { adaptor.create(SIMPLE_NAME, $param_list_or_id.text) }
| PRIMITIVE_TYPE -> SIMPLE_NAME[$PRIMITIVE_TYPE]
| VOID_TYPE -> SIMPLE_NAME[$VOID_TYPE]
| ANNOTATION_VISIBILITY -> SIMPLE_NAME[$ANNOTATION_VISIBILITY]
| METHOD_HANDLE_TYPE_FIELD
| METHOD_HANDLE_TYPE_METHOD
| INSTRUCTION_FORMAT10t -> SIMPLE_NAME[$INSTRUCTION_FORMAT10t]
| INSTRUCTION_FORMAT10x -> SIMPLE_NAME[$INSTRUCTION_FORMAT10x]
| INSTRUCTION_FORMAT10x_ODEX -> SIMPLE_NAME[$INSTRUCTION_FORMAT10x_ODEX]
| INSTRUCTION_FORMAT11x -> SIMPLE_NAME[$INSTRUCTION_FORMAT11x]
| INSTRUCTION_FORMAT12x_OR_ID -> SIMPLE_NAME[$INSTRUCTION_FORMAT12x_OR_ID]
| INSTRUCTION_FORMAT21c_FIELD -> SIMPLE_NAME[$INSTRUCTION_FORMAT21c_FIELD]
| INSTRUCTION_FORMAT21c_FIELD_ODEX -> SIMPLE_NAME[$INSTRUCTION_FORMAT21c_FIELD_ODEX]
| INSTRUCTION_FORMAT21c_METHOD_HANDLE -> SIMPLE_NAME[$INSTRUCTION_FORMAT21c_METHOD_HANDLE]
| INSTRUCTION_FORMAT21c_METHOD_TYPE -> SIMPLE_NAME[$INSTRUCTION_FORMAT21c_METHOD_TYPE]
| INSTRUCTION_FORMAT21c_STRING -> SIMPLE_NAME[$INSTRUCTION_FORMAT21c_STRING]
| INSTRUCTION_FORMAT21c_TYPE -> SIMPLE_NAME[$INSTRUCTION_FORMAT21c_TYPE]
| INSTRUCTION_FORMAT21t -> SIMPLE_NAME[$INSTRUCTION_FORMAT21t]
| INSTRUCTION_FORMAT22c_FIELD -> SIMPLE_NAME[$INSTRUCTION_FORMAT22c_FIELD]
| INSTRUCTION_FORMAT22c_FIELD_ODEX -> SIMPLE_NAME[$INSTRUCTION_FORMAT22c_FIELD_ODEX]
| INSTRUCTION_FORMAT22c_TYPE -> SIMPLE_NAME[$INSTRUCTION_FORMAT22c_TYPE]
| INSTRUCTION_FORMAT22cs_FIELD -> SIMPLE_NAME[$INSTRUCTION_FORMAT22cs_FIELD]
| INSTRUCTION_FORMAT22s_OR_ID -> SIMPLE_NAME[$INSTRUCTION_FORMAT22s_OR_ID]
| INSTRUCTION_FORMAT22t -> SIMPLE_NAME[$INSTRUCTION_FORMAT22t]
| INSTRUCTION_FORMAT23x -> SIMPLE_NAME[$INSTRUCTION_FORMAT23x]
| INSTRUCTION_FORMAT31i_OR_ID -> SIMPLE_NAME[$INSTRUCTION_FORMAT31i_OR_ID]
| INSTRUCTION_FORMAT31t -> SIMPLE_NAME[$INSTRUCTION_FORMAT31t]
| INSTRUCTION_FORMAT35c_CALL_SITE -> SIMPLE_NAME[$INSTRUCTION_FORMAT35c_CALL_SITE]
| INSTRUCTION_FORMAT35c_METHOD -> SIMPLE_NAME[$INSTRUCTION_FORMAT35c_METHOD]
| INSTRUCTION_FORMAT35c_METHOD_ODEX -> SIMPLE_NAME[$INSTRUCTION_FORMAT35c_METHOD_ODEX]
| INSTRUCTION_FORMAT35c_TYPE -> SIMPLE_NAME[$INSTRUCTION_FORMAT35c_TYPE]
| INSTRUCTION_FORMAT35mi_METHOD -> SIMPLE_NAME[$INSTRUCTION_FORMAT35mi_METHOD]
| INSTRUCTION_FORMAT35ms_METHOD -> SIMPLE_NAME[$INSTRUCTION_FORMAT35ms_METHOD]
| INSTRUCTION_FORMAT45cc_METHOD -> SIMPLE_NAME[$INSTRUCTION_FORMAT45cc_METHOD]
| INSTRUCTION_FORMAT4rcc_METHOD -> SIMPLE_NAME[$INSTRUCTION_FORMAT4rcc_METHOD]
| INSTRUCTION_FORMAT51l -> SIMPLE_NAME[$INSTRUCTION_FORMAT51l];
member_name
: simple_name
| MEMBER_NAME -> SIMPLE_NAME[$MEMBER_NAME];
method_prototype
: OPEN_PAREN param_list CLOSE_PAREN type_descriptor
-> ^(I_METHOD_PROTOTYPE[$start, "I_METHOD_PROTOTYPE"] ^(I_METHOD_RETURN_TYPE type_descriptor) param_list?);
param_list_or_id_primitive_type
: PARAM_LIST_OR_ID_PRIMITIVE_TYPE -> PRIMITIVE_TYPE[$PARAM_LIST_OR_ID_PRIMITIVE_TYPE];
param_list
: param_list_or_id_primitive_type+
| nonvoid_type_descriptor*;
array_descriptor
: ARRAY_TYPE_PREFIX (PRIMITIVE_TYPE | CLASS_DESCRIPTOR);
type_descriptor
: VOID_TYPE
| PRIMITIVE_TYPE
| CLASS_DESCRIPTOR
| array_descriptor;
nonvoid_type_descriptor
: PRIMITIVE_TYPE
| CLASS_DESCRIPTOR
| array_descriptor;
reference_type_descriptor
: CLASS_DESCRIPTOR
| array_descriptor;
integer_literal
: POSITIVE_INTEGER_LITERAL -> INTEGER_LITERAL[$POSITIVE_INTEGER_LITERAL]
| NEGATIVE_INTEGER_LITERAL -> INTEGER_LITERAL[$NEGATIVE_INTEGER_LITERAL];
float_literal
: FLOAT_LITERAL_OR_ID -> FLOAT_LITERAL[$FLOAT_LITERAL_OR_ID]
| FLOAT_LITERAL;
double_literal
: DOUBLE_LITERAL_OR_ID -> DOUBLE_LITERAL[$DOUBLE_LITERAL_OR_ID]
| DOUBLE_LITERAL;
literal
: LONG_LITERAL
| integer_literal
| SHORT_LITERAL
| BYTE_LITERAL
| float_literal
| double_literal
| CHAR_LITERAL
| STRING_LITERAL
| BOOL_LITERAL
| NULL_LITERAL
| array_literal
| subannotation
| type_field_method_literal
| enum_literal
| method_handle_literal
| method_prototype;
parsed_integer_literal returns[int value]
: integer_literal { $value = LiteralTools.parseInt($integer_literal.text); };
integral_literal
: LONG_LITERAL
| integer_literal
| SHORT_LITERAL
| CHAR_LITERAL
| BYTE_LITERAL;
fixed_32bit_literal
: LONG_LITERAL
| integer_literal
| SHORT_LITERAL
| BYTE_LITERAL
| float_literal
| CHAR_LITERAL
| BOOL_LITERAL;
fixed_literal
: integer_literal
| LONG_LITERAL
| SHORT_LITERAL
| BYTE_LITERAL
| float_literal
| double_literal
| CHAR_LITERAL
| BOOL_LITERAL;
array_literal
: OPEN_BRACE (literal (COMMA literal)* | ) CLOSE_BRACE
-> ^(I_ENCODED_ARRAY[$start, "I_ENCODED_ARRAY"] literal*);
annotation_element
: simple_name EQUAL literal
-> ^(I_ANNOTATION_ELEMENT[$start, "I_ANNOTATION_ELEMENT"] simple_name literal);
annotation
: ANNOTATION_DIRECTIVE ANNOTATION_VISIBILITY CLASS_DESCRIPTOR
annotation_element* END_ANNOTATION_DIRECTIVE
-> ^(I_ANNOTATION[$start, "I_ANNOTATION"] ANNOTATION_VISIBILITY ^(I_SUBANNOTATION[$start, "I_SUBANNOTATION"] CLASS_DESCRIPTOR annotation_element*));
subannotation
: SUBANNOTATION_DIRECTIVE CLASS_DESCRIPTOR annotation_element* END_SUBANNOTATION_DIRECTIVE
-> ^(I_SUBANNOTATION[$start, "I_SUBANNOTATION"] CLASS_DESCRIPTOR annotation_element*);
// TODO: how does dalvik handle a primitive or array type, or a non-enum type?
enum_literal
: ENUM_DIRECTIVE field_reference
-> ^(I_ENCODED_ENUM field_reference);
type_field_method_literal
: reference_type_descriptor
| ( (reference_type_descriptor ARROW)?
( member_name COLON nonvoid_type_descriptor -> ^(I_ENCODED_FIELD reference_type_descriptor? member_name nonvoid_type_descriptor)
| member_name method_prototype -> ^(I_ENCODED_METHOD reference_type_descriptor? member_name method_prototype)
)
)
| PRIMITIVE_TYPE
| VOID_TYPE;
call_site_reference
: simple_name OPEN_PAREN STRING_LITERAL COMMA method_prototype (COMMA literal)* CLOSE_PAREN AT method_reference
-> ^(I_CALL_SITE_REFERENCE simple_name STRING_LITERAL method_prototype ^(I_CALL_SITE_EXTRA_ARGUMENTS literal*)
method_reference);
method_handle_reference
: METHOD_HANDLE_TYPE_FIELD AT field_reference -> METHOD_HANDLE_TYPE_FIELD field_reference
| METHOD_HANDLE_TYPE_METHOD AT method_reference -> METHOD_HANDLE_TYPE_METHOD method_reference;
method_handle_literal
: method_handle_reference
-> ^(I_ENCODED_METHOD_HANDLE method_handle_reference);
method_reference
: (reference_type_descriptor ARROW)? member_name method_prototype
-> reference_type_descriptor? member_name method_prototype;
field_reference
: (reference_type_descriptor ARROW)? member_name COLON nonvoid_type_descriptor
-> reference_type_descriptor? member_name nonvoid_type_descriptor;
label
: COLON simple_name -> ^(I_LABEL[$COLON, "I_LABEL"] simple_name);
label_ref
: COLON simple_name -> simple_name;
register_list
: REGISTER (COMMA REGISTER)* -> ^(I_REGISTER_LIST[$start, "I_REGISTER_LIST"] REGISTER*)
| ->^(I_REGISTER_LIST[$start, "I_REGISTER_LIST"]);
register_range
: (startreg=REGISTER (DOTDOT endreg=REGISTER)?)? -> ^(I_REGISTER_RANGE[$start, "I_REGISTER_RANGE"] $startreg? $endreg?);
verification_error_reference
: CLASS_DESCRIPTOR | field_reference | method_reference;
catch_directive
: CATCH_DIRECTIVE nonvoid_type_descriptor OPEN_BRACE from=label_ref DOTDOT to=label_ref CLOSE_BRACE using=label_ref
-> ^(I_CATCH[$start, "I_CATCH"] nonvoid_type_descriptor $from $to $using);
catchall_directive
: CATCHALL_DIRECTIVE OPEN_BRACE from=label_ref DOTDOT to=label_ref CLOSE_BRACE using=label_ref
-> ^(I_CATCHALL[$start, "I_CATCHALL"] $from $to $using);
/*When there are annotations immediately after a parameter definition, we don't know whether they are parameter annotations
or method annotations until we determine if there is an .end parameter directive. In either case, we still "consume" and parse
the annotations. If it turns out that they are parameter annotations, we include them in the I_PARAMETER AST. Otherwise, we
add them to the $statements_and_directives::methodAnnotations list*/
parameter_directive
@init {List<CommonTree> annotations = new ArrayList<CommonTree>();}
: PARAMETER_DIRECTIVE REGISTER (COMMA STRING_LITERAL)?
({input.LA(1) == ANNOTATION_DIRECTIVE}? annotation {annotations.add($annotation.tree);})*
( END_PARAMETER_DIRECTIVE
-> ^(I_PARAMETER[$start, "I_PARAMETER"] REGISTER STRING_LITERAL? ^(I_ANNOTATIONS annotation*))
| /*epsilon*/ {$statements_and_directives::methodAnnotations.addAll(annotations);}
-> ^(I_PARAMETER[$start, "I_PARAMETER"] REGISTER STRING_LITERAL? ^(I_ANNOTATIONS))
);
debug_directive
: line_directive
| local_directive
| end_local_directive
| restart_local_directive
| prologue_directive
| epilogue_directive
| source_directive;
line_directive
: LINE_DIRECTIVE integral_literal
-> ^(I_LINE[$start, "I_LINE"] integral_literal);
local_directive
: LOCAL_DIRECTIVE REGISTER (COMMA (NULL_LITERAL | name=STRING_LITERAL) COLON (VOID_TYPE | nonvoid_type_descriptor)
(COMMA signature=STRING_LITERAL)? )?
-> ^(I_LOCAL[$start, "I_LOCAL"] REGISTER NULL_LITERAL? $name? nonvoid_type_descriptor? $signature?);
end_local_directive
: END_LOCAL_DIRECTIVE REGISTER
-> ^(I_END_LOCAL[$start, "I_END_LOCAL"] REGISTER);
restart_local_directive
: RESTART_LOCAL_DIRECTIVE REGISTER
-> ^(I_RESTART_LOCAL[$start, "I_RESTART_LOCAL"] REGISTER);
prologue_directive
: PROLOGUE_DIRECTIVE
-> ^(I_PROLOGUE[$start, "I_PROLOGUE"]);
epilogue_directive
: EPILOGUE_DIRECTIVE
-> ^(I_EPILOGUE[$start, "I_EPILOGUE"]);
source_directive
: SOURCE_DIRECTIVE STRING_LITERAL?
-> ^(I_SOURCE[$start, "I_SOURCE"] STRING_LITERAL?);
instruction_format12x
: INSTRUCTION_FORMAT12x
| INSTRUCTION_FORMAT12x_OR_ID -> INSTRUCTION_FORMAT12x[$INSTRUCTION_FORMAT12x_OR_ID];
instruction_format22s
: INSTRUCTION_FORMAT22s
| INSTRUCTION_FORMAT22s_OR_ID -> INSTRUCTION_FORMAT22s[$INSTRUCTION_FORMAT22s_OR_ID];
instruction_format31i
: INSTRUCTION_FORMAT31i
| INSTRUCTION_FORMAT31i_OR_ID -> INSTRUCTION_FORMAT31i[$INSTRUCTION_FORMAT31i_OR_ID];
instruction
: insn_format10t
| insn_format10x
| insn_format10x_odex
| insn_format11n
| insn_format11x
| insn_format12x
| insn_format20bc
| insn_format20t
| insn_format21c_field
| insn_format21c_field_odex
| insn_format21c_method_handle
| insn_format21c_method_type
| insn_format21c_string
| insn_format21c_type
| insn_format21ih
| insn_format21lh
| insn_format21s
| insn_format21t
| insn_format22b
| insn_format22c_field
| insn_format22c_field_odex
| insn_format22c_type
| insn_format22cs_field
| insn_format22s
| insn_format22t
| insn_format22x
| insn_format23x
| insn_format30t
| insn_format31c
| insn_format31i
| insn_format31t
| insn_format32x
| insn_format35c_call_site
| insn_format35c_method
| insn_format35c_type
| insn_format35c_method_odex
| insn_format35mi_method
| insn_format35ms_method
| insn_format3rc_call_site
| insn_format3rc_method
| insn_format3rc_method_odex
| insn_format3rc_type
| insn_format3rmi_method
| insn_format3rms_method
| insn_format45cc_method
| insn_format4rcc_method
| insn_format51l
| insn_array_data_directive
| insn_packed_switch_directive
| insn_sparse_switch_directive;
insn_format10t
: //e.g. goto endloop:
//e.g. goto +3
INSTRUCTION_FORMAT10t label_ref
-> ^(I_STATEMENT_FORMAT10t[$start, "I_STATEMENT_FORMAT10t"] INSTRUCTION_FORMAT10t label_ref);
insn_format10x
: //e.g. return-void
INSTRUCTION_FORMAT10x
-> ^(I_STATEMENT_FORMAT10x[$start, "I_STATEMENT_FORMAT10x"] INSTRUCTION_FORMAT10x);
insn_format10x_odex
: //e.g. return-void-barrier
INSTRUCTION_FORMAT10x_ODEX
{
throwOdexedInstructionException(input, $INSTRUCTION_FORMAT10x_ODEX.text);
};
insn_format11n
: //e.g. const/4 v0, 5
INSTRUCTION_FORMAT11n REGISTER COMMA integral_literal
-> ^(I_STATEMENT_FORMAT11n[$start, "I_STATEMENT_FORMAT11n"] INSTRUCTION_FORMAT11n REGISTER integral_literal);
insn_format11x
: //e.g. move-result-object v1
INSTRUCTION_FORMAT11x REGISTER
-> ^(I_STATEMENT_FORMAT11x[$start, "I_STATEMENT_FORMAT11x"] INSTRUCTION_FORMAT11x REGISTER);
insn_format12x
: //e.g. move v1 v2
instruction_format12x REGISTER COMMA REGISTER
-> ^(I_STATEMENT_FORMAT12x[$start, "I_STATEMENT_FORMAT12x"] instruction_format12x REGISTER REGISTER);
insn_format20bc
: //e.g. throw-verification-error generic-error, Lsome/class;
INSTRUCTION_FORMAT20bc VERIFICATION_ERROR_TYPE COMMA verification_error_reference
{
if (!allowOdex || opcodes.getOpcodeByName($INSTRUCTION_FORMAT20bc.text) == null || apiLevel >= 14) {
throwOdexedInstructionException(input, $INSTRUCTION_FORMAT20bc.text);
}
}
-> ^(I_STATEMENT_FORMAT20bc INSTRUCTION_FORMAT20bc VERIFICATION_ERROR_TYPE verification_error_reference);
insn_format20t
: //e.g. goto/16 endloop:
INSTRUCTION_FORMAT20t label_ref
-> ^(I_STATEMENT_FORMAT20t[$start, "I_STATEMENT_FORMAT20t"] INSTRUCTION_FORMAT20t label_ref);
insn_format21c_field
: //e.g. sget-object v0, java/lang/System/out LJava/io/PrintStream;
INSTRUCTION_FORMAT21c_FIELD REGISTER COMMA field_reference
-> ^(I_STATEMENT_FORMAT21c_FIELD[$start, "I_STATEMENT_FORMAT21c_FIELD"] INSTRUCTION_FORMAT21c_FIELD REGISTER field_reference);
insn_format21c_field_odex
: //e.g. sget-object-volatile v0, java/lang/System/out LJava/io/PrintStream;
INSTRUCTION_FORMAT21c_FIELD_ODEX REGISTER COMMA field_reference
{
if (!allowOdex || opcodes.getOpcodeByName($INSTRUCTION_FORMAT21c_FIELD_ODEX.text) == null || apiLevel >= 14) {
throwOdexedInstructionException(input, $INSTRUCTION_FORMAT21c_FIELD_ODEX.text);
}
}
-> ^(I_STATEMENT_FORMAT21c_FIELD[$start, "I_STATEMENT_FORMAT21c_FIELD"] INSTRUCTION_FORMAT21c_FIELD_ODEX REGISTER field_reference);
insn_format21c_method_handle
: //e.g. const-method-handle v0, static-invoke@Ljava/lang/Integer;->toString(I)Ljava/lang/String;
INSTRUCTION_FORMAT21c_METHOD_HANDLE REGISTER COMMA method_handle_reference
-> ^(I_STATEMENT_FORMAT21c_METHOD_HANDLE[$start, "I_STATEMENT_FORMAT21c_METHOD_HANDLE"]
INSTRUCTION_FORMAT21c_METHOD_HANDLE REGISTER method_handle_reference);
insn_format21c_method_type
: //e.g. const-method-type v0, (ILjava/lang/String;)Ljava/lang/String;
INSTRUCTION_FORMAT21c_METHOD_TYPE REGISTER COMMA method_prototype
-> ^(I_STATEMENT_FORMAT21c_METHOD_TYPE[$start, "I_STATEMENT_FORMAT21c_METHOD_TYPE"]
INSTRUCTION_FORMAT21c_METHOD_TYPE REGISTER method_prototype);
insn_format21c_string
: //e.g. const-string v1, "Hello World!"
INSTRUCTION_FORMAT21c_STRING REGISTER COMMA STRING_LITERAL
-> ^(I_STATEMENT_FORMAT21c_STRING[$start, "I_STATEMENT_FORMAT21c_STRING"] INSTRUCTION_FORMAT21c_STRING REGISTER STRING_LITERAL);
insn_format21c_type
: //e.g. const-class v2, Lorg/jf/HelloWorld2/HelloWorld2;
INSTRUCTION_FORMAT21c_TYPE REGISTER COMMA nonvoid_type_descriptor
-> ^(I_STATEMENT_FORMAT21c_TYPE[$start, "I_STATEMENT_FORMAT21c"] INSTRUCTION_FORMAT21c_TYPE REGISTER nonvoid_type_descriptor);
insn_format21ih
: //e.g. const/high16 v1, 1234
INSTRUCTION_FORMAT21ih REGISTER COMMA fixed_32bit_literal
-> ^(I_STATEMENT_FORMAT21ih[$start, "I_STATEMENT_FORMAT21ih"] INSTRUCTION_FORMAT21ih REGISTER fixed_32bit_literal);
insn_format21lh
: //e.g. const-wide/high16 v1, 1234
INSTRUCTION_FORMAT21lh REGISTER COMMA fixed_32bit_literal
-> ^(I_STATEMENT_FORMAT21lh[$start, "I_STATEMENT_FORMAT21lh"] INSTRUCTION_FORMAT21lh REGISTER fixed_32bit_literal);
insn_format21s
: //e.g. const/16 v1, 1234
INSTRUCTION_FORMAT21s REGISTER COMMA integral_literal
-> ^(I_STATEMENT_FORMAT21s[$start, "I_STATEMENT_FORMAT21s"] INSTRUCTION_FORMAT21s REGISTER integral_literal);
insn_format21t
: //e.g. if-eqz v0, endloop:
INSTRUCTION_FORMAT21t REGISTER COMMA label_ref
-> ^(I_STATEMENT_FORMAT21t[$start, "I_STATEMENT_FORMAT21t"] INSTRUCTION_FORMAT21t REGISTER label_ref);
insn_format22b
: //e.g. add-int v0, v1, 123
INSTRUCTION_FORMAT22b REGISTER COMMA REGISTER COMMA integral_literal
-> ^(I_STATEMENT_FORMAT22b[$start, "I_STATEMENT_FORMAT22b"] INSTRUCTION_FORMAT22b REGISTER REGISTER integral_literal);
insn_format22c_field
: //e.g. iput-object v1, v0 org/jf/HelloWorld2/HelloWorld2.helloWorld Ljava/lang/String;
INSTRUCTION_FORMAT22c_FIELD REGISTER COMMA REGISTER COMMA field_reference
-> ^(I_STATEMENT_FORMAT22c_FIELD[$start, "I_STATEMENT_FORMAT22c_FIELD"] INSTRUCTION_FORMAT22c_FIELD REGISTER REGISTER field_reference);
insn_format22c_field_odex
: //e.g. iput-object-volatile v1, v0 org/jf/HelloWorld2/HelloWorld2.helloWorld Ljava/lang/String;
INSTRUCTION_FORMAT22c_FIELD_ODEX REGISTER COMMA REGISTER COMMA field_reference
{
if (!allowOdex || opcodes.getOpcodeByName($INSTRUCTION_FORMAT22c_FIELD_ODEX.text) == null || apiLevel >= 14) {
throwOdexedInstructionException(input, $INSTRUCTION_FORMAT22c_FIELD_ODEX.text);
}
}
-> ^(I_STATEMENT_FORMAT22c_FIELD[$start, "I_STATEMENT_FORMAT22c_FIELD"] INSTRUCTION_FORMAT22c_FIELD_ODEX REGISTER REGISTER field_reference);
insn_format22c_type
: //e.g. instance-of v0, v1, Ljava/lang/String;
INSTRUCTION_FORMAT22c_TYPE REGISTER COMMA REGISTER COMMA nonvoid_type_descriptor
-> ^(I_STATEMENT_FORMAT22c_TYPE[$start, "I_STATEMENT_FORMAT22c_TYPE"] INSTRUCTION_FORMAT22c_TYPE REGISTER REGISTER nonvoid_type_descriptor);
insn_format22cs_field
: //e.g. iget-quick v0, v1, field@0xc
INSTRUCTION_FORMAT22cs_FIELD REGISTER COMMA REGISTER COMMA FIELD_OFFSET
{
throwOdexedInstructionException(input, $INSTRUCTION_FORMAT22cs_FIELD.text);
};
insn_format22s
: //e.g. add-int/lit16 v0, v1, 12345
instruction_format22s REGISTER COMMA REGISTER COMMA integral_literal
-> ^(I_STATEMENT_FORMAT22s[$start, "I_STATEMENT_FORMAT22s"] instruction_format22s REGISTER REGISTER integral_literal);
insn_format22t
: //e.g. if-eq v0, v1, endloop:
INSTRUCTION_FORMAT22t REGISTER COMMA REGISTER COMMA label_ref
-> ^(I_STATEMENT_FORMAT22t[$start, "I_STATEMENT_FFORMAT22t"] INSTRUCTION_FORMAT22t REGISTER REGISTER label_ref);
insn_format22x
: //e.g. move/from16 v1, v1234
INSTRUCTION_FORMAT22x REGISTER COMMA REGISTER
-> ^(I_STATEMENT_FORMAT22x[$start, "I_STATEMENT_FORMAT22x"] INSTRUCTION_FORMAT22x REGISTER REGISTER);
insn_format23x
: //e.g. add-int v1, v2, v3
INSTRUCTION_FORMAT23x REGISTER COMMA REGISTER COMMA REGISTER
-> ^(I_STATEMENT_FORMAT23x[$start, "I_STATEMENT_FORMAT23x"] INSTRUCTION_FORMAT23x REGISTER REGISTER REGISTER);
insn_format30t
: //e.g. goto/32 endloop:
INSTRUCTION_FORMAT30t label_ref
-> ^(I_STATEMENT_FORMAT30t[$start, "I_STATEMENT_FORMAT30t"] INSTRUCTION_FORMAT30t label_ref);
insn_format31c
: //e.g. const-string/jumbo v1 "Hello World!"
INSTRUCTION_FORMAT31c REGISTER COMMA STRING_LITERAL
->^(I_STATEMENT_FORMAT31c[$start, "I_STATEMENT_FORMAT31c"] INSTRUCTION_FORMAT31c REGISTER STRING_LITERAL);
insn_format31i
: //e.g. const v0, 123456
instruction_format31i REGISTER COMMA fixed_32bit_literal
-> ^(I_STATEMENT_FORMAT31i[$start, "I_STATEMENT_FORMAT31i"] instruction_format31i REGISTER fixed_32bit_literal);
insn_format31t
: //e.g. fill-array-data v0, ArrayData:
INSTRUCTION_FORMAT31t REGISTER COMMA label_ref
-> ^(I_STATEMENT_FORMAT31t[$start, "I_STATEMENT_FORMAT31t"] INSTRUCTION_FORMAT31t REGISTER label_ref);
insn_format32x
: //e.g. move/16 v4567, v1234
INSTRUCTION_FORMAT32x REGISTER COMMA REGISTER
-> ^(I_STATEMENT_FORMAT32x[$start, "I_STATEMENT_FORMAT32x"] INSTRUCTION_FORMAT32x REGISTER REGISTER);
insn_format35c_call_site
: //e.g. invoke-custom {v0, v1}, call_site_name
// OR invoke-custom {v0, v1}, {"doSomething", (LCustom;Ljava/lang/String;)Ljava/lang/String;, "just testing"}, BootstrapLinker;->normalLink(Ljava/lang/invoke/MethodHandles$Lookup;Ljava/lang/String;Ljava/lang/invoke/MethodType;Ljava/lang/Object;)Ljava/lang/invoke/CallSite;
INSTRUCTION_FORMAT35c_CALL_SITE OPEN_BRACE register_list CLOSE_BRACE COMMA call_site_reference
-> ^(I_STATEMENT_FORMAT35c_CALL_SITE[$start, "I_STATEMENT_FORMAT35c_CALL_SITE"] INSTRUCTION_FORMAT35c_CALL_SITE register_list call_site_reference);
insn_format35c_method
: //e.g. invoke-virtual {v0,v1} java/io/PrintStream/print(Ljava/lang/Stream;)V
INSTRUCTION_FORMAT35c_METHOD OPEN_BRACE register_list CLOSE_BRACE COMMA method_reference
-> ^(I_STATEMENT_FORMAT35c_METHOD[$start, "I_STATEMENT_FORMAT35c_METHOD"] INSTRUCTION_FORMAT35c_METHOD register_list method_reference);
insn_format35c_type
: //e.g. filled-new-array {v0,v1}, I
INSTRUCTION_FORMAT35c_TYPE OPEN_BRACE register_list CLOSE_BRACE COMMA nonvoid_type_descriptor
-> ^(I_STATEMENT_FORMAT35c_TYPE[$start, "I_STATEMENT_FORMAT35c_TYPE"] INSTRUCTION_FORMAT35c_TYPE register_list nonvoid_type_descriptor);
insn_format35c_method_odex
: //e.g. invoke-direct {p0}, Ljava/lang/Object;-><init>()V
INSTRUCTION_FORMAT35c_METHOD_ODEX OPEN_BRACE register_list CLOSE_BRACE COMMA method_reference
{
throwOdexedInstructionException(input, $INSTRUCTION_FORMAT35c_METHOD_ODEX.text);
};
insn_format35mi_method
: //e.g. execute-inline {v0, v1}, inline@0x4
INSTRUCTION_FORMAT35mi_METHOD OPEN_BRACE register_list CLOSE_BRACE COMMA INLINE_INDEX
{
throwOdexedInstructionException(input, $INSTRUCTION_FORMAT35mi_METHOD.text);
};
insn_format35ms_method
: //e.g. invoke-virtual-quick {v0, v1}, vtable@0x4
INSTRUCTION_FORMAT35ms_METHOD OPEN_BRACE register_list CLOSE_BRACE COMMA VTABLE_INDEX
{
throwOdexedInstructionException(input, $INSTRUCTION_FORMAT35ms_METHOD.text);
};
insn_format3rc_call_site
: //e.g. invoke-custom/range {v0 .. v1}, call_site_name
// OR invoke-custom/range {v0 .. v1}, {"doSomething", (LCustom;Ljava/lang/String;)Ljava/lang/String;, "just testing"}, BootstrapLinker;->normalLink(Ljava/lang/invoke/MethodHandles$Lookup;Ljava/lang/String;Ljava/lang/invoke/MethodType;Ljava/lang/Object;)Ljava/lang/invoke/CallSite;
INSTRUCTION_FORMAT3rc_CALL_SITE OPEN_BRACE register_range CLOSE_BRACE COMMA call_site_reference
-> ^(I_STATEMENT_FORMAT3rc_CALL_SITE[$start, "I_STATEMENT_FORMAT3rc_CALL_SITE"] INSTRUCTION_FORMAT3rc_CALL_SITE register_range call_site_reference);
insn_format3rc_method
: //e.g. invoke-virtual/range {v25..v26}, java/lang/StringBuilder/append(Ljava/lang/String;)Ljava/lang/StringBuilder;
INSTRUCTION_FORMAT3rc_METHOD OPEN_BRACE register_range CLOSE_BRACE COMMA method_reference
-> ^(I_STATEMENT_FORMAT3rc_METHOD[$start, "I_STATEMENT_FORMAT3rc_METHOD"] INSTRUCTION_FORMAT3rc_METHOD register_range method_reference);
insn_format3rc_method_odex
: //e.g. invoke-object-init/range {p0}, Ljava/lang/Object;-><init>()V
INSTRUCTION_FORMAT3rc_METHOD_ODEX OPEN_BRACE register_list CLOSE_BRACE COMMA method_reference
{
throwOdexedInstructionException(input, $INSTRUCTION_FORMAT3rc_METHOD_ODEX.text);
};
insn_format3rc_type
: //e.g. filled-new-array/range {v0..v6}, I
INSTRUCTION_FORMAT3rc_TYPE OPEN_BRACE register_range CLOSE_BRACE COMMA nonvoid_type_descriptor
-> ^(I_STATEMENT_FORMAT3rc_TYPE[$start, "I_STATEMENT_FORMAT3rc_TYPE"] INSTRUCTION_FORMAT3rc_TYPE register_range nonvoid_type_descriptor);
insn_format3rmi_method
: //e.g. execute-inline/range {v0 .. v10}, inline@0x14
INSTRUCTION_FORMAT3rmi_METHOD OPEN_BRACE register_range CLOSE_BRACE COMMA INLINE_INDEX
{
throwOdexedInstructionException(input, $INSTRUCTION_FORMAT3rmi_METHOD.text);
};
insn_format3rms_method
: //e.g. invoke-virtual-quick/range {v0 .. v10}, vtable@0x14
INSTRUCTION_FORMAT3rms_METHOD OPEN_BRACE register_range CLOSE_BRACE COMMA VTABLE_INDEX
{
throwOdexedInstructionException(input, $INSTRUCTION_FORMAT3rms_METHOD.text);
};
insn_format45cc_method
: //e.g. invoke-polymorphic {v0..v1}, java/lang/invoke/MethodHandle;->invoke([Ljava/lang/Object;)Ljava/lang/Object;, (I)J
INSTRUCTION_FORMAT45cc_METHOD OPEN_BRACE register_list CLOSE_BRACE COMMA method_reference COMMA method_prototype
-> ^(I_STATEMENT_FORMAT45cc_METHOD[$start, "I_STATEMENT_FORMAT45cc_METHOD"] INSTRUCTION_FORMAT45cc_METHOD register_list method_reference method_prototype);
insn_format4rcc_method
: //e.g. invoke-polymorphic/range {v0,v1}, java/lang/invoke/MethodHandle;->invoke([Ljava/lang/Object;)Ljava/lang/Object;, (I)J
INSTRUCTION_FORMAT4rcc_METHOD OPEN_BRACE register_range CLOSE_BRACE COMMA method_reference COMMA method_prototype
-> ^(I_STATEMENT_FORMAT4rcc_METHOD[$start, "I_STATEMENT_FORMAT4rcc_METHOD"] INSTRUCTION_FORMAT4rcc_METHOD register_range method_reference method_prototype);
insn_format51l
: //e.g. const-wide v0, 5000000000L
INSTRUCTION_FORMAT51l REGISTER COMMA fixed_literal
-> ^(I_STATEMENT_FORMAT51l[$start, "I_STATEMENT_FORMAT51l"] INSTRUCTION_FORMAT51l REGISTER fixed_literal);
insn_array_data_directive
: ARRAY_DATA_DIRECTIVE
parsed_integer_literal
{
int elementWidth = $parsed_integer_literal.value;
if (elementWidth != 4 && elementWidth != 8 && elementWidth != 1 && elementWidth != 2) {
throw new SemanticException(input, $start, "Invalid element width: \%d. Must be 1, 2, 4 or 8", elementWidth);
}
}
fixed_literal* END_ARRAY_DATA_DIRECTIVE
-> ^(I_STATEMENT_ARRAY_DATA[$start, "I_STATEMENT_ARRAY_DATA"] ^(I_ARRAY_ELEMENT_SIZE parsed_integer_literal)
^(I_ARRAY_ELEMENTS fixed_literal*));
insn_packed_switch_directive
: PACKED_SWITCH_DIRECTIVE
fixed_32bit_literal
label_ref*
END_PACKED_SWITCH_DIRECTIVE
-> ^(I_STATEMENT_PACKED_SWITCH[$start, "I_STATEMENT_PACKED_SWITCH"]
^(I_PACKED_SWITCH_START_KEY[$start, "I_PACKED_SWITCH_START_KEY"] fixed_32bit_literal)
^(I_PACKED_SWITCH_ELEMENTS[$start, "I_PACKED_SWITCH_ELEMENTS"]
label_ref*)
);
insn_sparse_switch_directive
: SPARSE_SWITCH_DIRECTIVE
(fixed_32bit_literal ARROW label_ref)*
END_SPARSE_SWITCH_DIRECTIVE
-> ^(I_STATEMENT_SPARSE_SWITCH[$start, "I_STATEMENT_SPARSE_SWITCH"]
^(I_SPARSE_SWITCH_ELEMENTS[$start, "I_SPARSE_SWITCH_ELEMENTS"] (fixed_32bit_literal label_ref)*));