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# include <stdio.h>
# include <stdlib.h>
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# include <string.h>
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# include <sys/types.h>
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# include "kuroko.h"
# include "compiler.h"
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# include "memory.h"
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# include "scanner.h"
# include "object.h"
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# include "debug.h"
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# include "vm.h"
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/**
* There ' s nothing really especially different here compared to the Lox
* compiler from Crafting Interpreters . A handful of additional pieces
* of functionality are added , and some work is done to make blocks use
* indentation instead of braces , but the basic layout and operation
* of the compiler are the same top - down Pratt parser .
*
* The parser error handling has been improved over the Lox compiler with
* the addition of column offsets and a printed copy of the original source
* line and the offending token .
*
* String parsing also includes escape sequence support , so you can print
* quotation marks properly , as well as escape sequences for terminals .
*
* One notable part of the compiler is the handling of list comprehensions .
* In order to support Python - style syntax , the parser has been set up to
* support rolling back to a previous state , so that when the compiler sees
* an expression with references to a variable that has yet to be defined it
* will first output the expression as if that variable was a global , then it
* will see the ' in ' , rewind , parse the rest of the list comprehension , and
* then output the expression as a loop body , with the correct local references .
*
* if / else and try / except blocks also have to similarly handle rollback cases
* as they can not peek forward to see if a statement after an indentation
* block is an else / except .
*/
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typedef struct {
KrkToken current ;
KrkToken previous ;
int hadError ;
int panicMode ;
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int eatingWhitespace ;
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} Parser ;
typedef enum {
PREC_NONE ,
PREC_ASSIGNMENT , /* = */
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PREC_TERNARY ,
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PREC_OR , /* or */
PREC_AND , /* and */
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PREC_BITOR , /* | */
PREC_BITXOR , /* ^ */
PREC_BITAND , /* & */
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PREC_EQUALITY , /* == != in */
PREC_COMPARISON , /* < > <= >= */
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PREC_SHIFT , /* << >> */
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PREC_TERM , /* + - */
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PREC_FACTOR , /* * / % */
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PREC_UNARY , /* ! - not */
PREC_CALL , /* . () */
PREC_PRIMARY
} Precedence ;
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typedef void ( * ParseFn ) ( int ) ;
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typedef struct {
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const char * name ;
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ParseFn prefix ;
ParseFn infix ;
Precedence precedence ;
} ParseRule ;
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typedef struct {
KrkToken name ;
ssize_t depth ;
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int isCaptured ;
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} Local ;
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typedef struct {
size_t index ;
int isLocal ;
} Upvalue ;
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typedef enum {
TYPE_FUNCTION ,
TYPE_MODULE ,
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TYPE_METHOD ,
TYPE_INIT ,
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TYPE_LAMBDA ,
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} FunctionType ;
typedef struct Compiler {
struct Compiler * enclosing ;
KrkFunction * function ;
FunctionType type ;
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size_t localCount ;
size_t scopeDepth ;
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size_t localsSpace ;
Local * locals ;
size_t upvaluesSpace ;
Upvalue * upvalues ;
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size_t loopLocalCount ;
size_t breakCount ;
size_t breakSpace ;
int * breaks ;
size_t continueCount ;
size_t continueSpace ;
int * continues ;
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size_t localNameCapacity ;
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} Compiler ;
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typedef struct ClassCompiler {
struct ClassCompiler * enclosing ;
KrkToken name ;
} ClassCompiler ;
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static Parser parser ;
static Compiler * current = NULL ;
static ClassCompiler * currentClass = NULL ;
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static int inDel = 0 ;
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static KrkChunk * currentChunk ( ) {
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return & current - > function - > chunk ;
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}
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# define EMIT_CONSTANT_OP(opc, arg) do { if (arg < 256) { emitBytes(opc, arg); } \
else { emitBytes ( opc # # _LONG , arg > > 16 ) ; emitBytes ( arg > > 8 , arg ) ; } } while ( 0 )
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static void initCompiler ( Compiler * compiler , FunctionType type ) {
compiler - > enclosing = current ;
current = compiler ;
compiler - > function = NULL ;
compiler - > type = type ;
compiler - > scopeDepth = 0 ;
compiler - > function = krk_newFunction ( ) ;
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compiler - > function - > globalsContext = ( KrkInstance * ) vm . module ;
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compiler - > localCount = 0 ;
compiler - > localsSpace = 8 ;
compiler - > locals = GROW_ARRAY ( Local , NULL , 0 , 8 ) ;
compiler - > upvaluesSpace = 0 ;
compiler - > upvalues = NULL ;
compiler - > breakCount = 0 ;
compiler - > breakSpace = 0 ;
compiler - > breaks = NULL ;
compiler - > continueCount = 0 ;
compiler - > continueSpace = 0 ;
compiler - > continues = NULL ;
compiler - > loopLocalCount = 0 ;
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compiler - > localNameCapacity = 0 ;
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if ( type ! = TYPE_MODULE ) {
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current - > function - > name = krk_copyString ( parser . previous . start , parser . previous . length ) ;
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}
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if ( type = = TYPE_INIT | | type = = TYPE_METHOD ) {
Local * local = & current - > locals [ current - > localCount + + ] ;
local - > depth = 0 ;
local - > isCaptured = 0 ;
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local - > name . start = " self " ;
local - > name . length = 4 ;
}
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}
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static void parsePrecedence ( Precedence precedence ) ;
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static ssize_t parseVariable ( const char * errorMessage ) ;
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static void variable ( int canAssign ) ;
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static void defineVariable ( size_t global ) ;
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static ssize_t identifierConstant ( KrkToken * name ) ;
static ssize_t resolveLocal ( Compiler * compiler , KrkToken * name ) ;
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static ParseRule * getRule ( KrkTokenType type ) ;
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static void defDeclaration ( ) ;
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static void expression ( ) ;
static void statement ( ) ;
static void declaration ( ) ;
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static void or_ ( int canAssign ) ;
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static void ternary ( int canAssign ) ;
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static void and_ ( int canAssign ) ;
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static void classDeclaration ( ) ;
static void declareVariable ( ) ;
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static void namedVariable ( KrkToken name , int canAssign ) ;
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static void addLocal ( KrkToken name ) ;
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static void string ( int canAssign ) ;
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static KrkToken decorator ( size_t level , FunctionType type ) ;
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static void call ( int canAssign ) ;
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static void finishError ( KrkToken * token ) {
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size_t i = ( token - > col - 1 ) ;
while ( token - > linePtr [ i ] & & token - > linePtr [ i ] ! = ' \n ' ) i + + ;
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krk_attachNamedObject ( & AS_INSTANCE ( vm . currentException ) - > fields , " line " , ( KrkObj * ) krk_copyString ( token - > linePtr , i ) ) ;
krk_attachNamedObject ( & AS_INSTANCE ( vm . currentException ) - > fields , " file " , ( KrkObj * ) currentChunk ( ) - > filename ) ;
krk_attachNamedValue ( & AS_INSTANCE ( vm . currentException ) - > fields , " lineno " , INTEGER_VAL ( token - > line ) ) ;
krk_attachNamedValue ( & AS_INSTANCE ( vm . currentException ) - > fields , " colno " , INTEGER_VAL ( token - > col ) ) ;
krk_attachNamedValue ( & AS_INSTANCE ( vm . currentException ) - > fields , " width " , INTEGER_VAL ( token - > literalWidth ) ) ;
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if ( current - > function - > name ) {
krk_attachNamedObject ( & AS_INSTANCE ( vm . currentException ) - > fields , " func " , ( KrkObj * ) current - > function - > name ) ;
} else {
KrkValue name = NONE_VAL ( ) ;
krk_tableGet ( & vm . module - > fields , vm . specialMethodNames [ METHOD_NAME ] , & name ) ;
krk_attachNamedValue ( & AS_INSTANCE ( vm . currentException ) - > fields , " func " , name ) ;
}
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parser . panicMode = 1 ;
parser . hadError = 1 ;
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}
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# define error(...) do { if (parser.panicMode) break; krk_runtimeError(vm.exceptions.syntaxError, __VA_ARGS__); finishError(&parser.previous); } while (0)
# define errorAtCurrent(...) do { if (parser.panicMode) break; krk_runtimeError(vm.exceptions.syntaxError, __VA_ARGS__); finishError(&parser.current); } while (0)
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static void advance ( ) {
parser . previous = parser . current ;
for ( ; ; ) {
parser . current = krk_scanToken ( ) ;
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if ( parser . eatingWhitespace & &
( parser . current . type = = TOKEN_INDENTATION | | parser . current . type = = TOKEN_EOL ) ) continue ;
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# ifdef ENABLE_SCAN_TRACING
if ( vm . flags & KRK_ENABLE_SCAN_TRACING ) {
fprintf ( stderr , " [%s %d:%d '%.*s'] " ,
getRule ( parser . current . type ) - > name ,
( int ) parser . current . line ,
( int ) parser . current . col ,
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( int ) parser . current . length ,
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parser . current . start ) ;
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}
# endif
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if ( parser . current . type = = TOKEN_RETRY ) continue ;
if ( parser . current . type ! = TOKEN_ERROR ) break ;
errorAtCurrent ( parser . current . start ) ;
}
}
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static void startEatingWhitespace ( ) {
parser . eatingWhitespace + + ;
if ( parser . current . type = = TOKEN_INDENTATION | | parser . current . type = = TOKEN_EOL ) advance ( ) ;
}
static void stopEatingWhitespace ( ) {
if ( parser . eatingWhitespace = = 0 ) {
error ( " Internal scanner error: Invalid nesting of `startEatingWhitespace`/`stopEatingWhitespace` calls. " ) ;
}
parser . eatingWhitespace - - ;
}
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static void consume ( KrkTokenType type , const char * message ) {
if ( parser . current . type = = type ) {
advance ( ) ;
return ;
}
errorAtCurrent ( message ) ;
}
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static int check ( KrkTokenType type ) {
return parser . current . type = = type ;
}
static int match ( KrkTokenType type ) {
if ( ! check ( type ) ) return 0 ;
advance ( ) ;
return 1 ;
}
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static int identifiersEqual ( KrkToken * a , KrkToken * b ) {
return ( a - > length = = b - > length & & memcmp ( a - > start , b - > start , a - > length ) = = 0 ) ;
}
static KrkToken syntheticToken ( const char * text ) {
KrkToken token ;
token . start = text ;
token . length = ( int ) strlen ( text ) ;
return token ;
}
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static void emitByte ( uint8_t byte ) {
krk_writeChunk ( currentChunk ( ) , byte , parser . previous . line ) ;
}
static void emitBytes ( uint8_t byte1 , uint8_t byte2 ) {
emitByte ( byte1 ) ;
emitByte ( byte2 ) ;
}
static void emitReturn ( ) {
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if ( current - > type = = TYPE_INIT ) {
emitBytes ( OP_GET_LOCAL , 0 ) ;
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} else if ( current - > type = = TYPE_MODULE ) {
/* Un-pop the last stack value */
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emitBytes ( OP_GET_LOCAL , 0 ) ;
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} else if ( current - > type ! = TYPE_LAMBDA ) {
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emitByte ( OP_NONE ) ;
}
emitByte ( OP_RETURN ) ;
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}
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static KrkFunction * endCompiler ( ) {
KrkFunction * function = current - > function ;
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for ( size_t i = 0 ; i < current - > function - > localNameCount ; i + + ) {
if ( current - > function - > localNames [ i ] . deathday = = 0 ) {
current - > function - > localNames [ i ] . deathday = currentChunk ( ) - > count ;
}
}
current - > function - > localNames = GROW_ARRAY ( KrkLocalEntry , current - > function - > localNames , \
current - > localNameCapacity , current - > function - > localNameCount ) ; /* Shorten this down for runtime */
emitReturn ( ) ;
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/* Attach contants for arguments */
for ( int i = 0 ; i < function - > requiredArgs ; + + i ) {
KrkValue value = OBJECT_VAL ( krk_copyString ( current - > locals [ i ] . name . start , current - > locals [ i ] . name . length ) ) ;
krk_push ( value ) ;
krk_writeValueArray ( & function - > requiredArgNames , value ) ;
krk_pop ( ) ;
}
for ( int i = 0 ; i < function - > keywordArgs ; + + i ) {
KrkValue value = OBJECT_VAL ( krk_copyString ( current - > locals [ i + function - > requiredArgs ] . name . start ,
current - > locals [ i + function - > requiredArgs ] . name . length ) ) ;
krk_push ( value ) ;
krk_writeValueArray ( & function - > keywordArgNames , value ) ;
krk_pop ( ) ;
}
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size_t args = current - > function - > requiredArgs + current - > function - > keywordArgs ;
if ( current - > function - > collectsArguments ) {
KrkValue value = OBJECT_VAL ( krk_copyString ( current - > locals [ args ] . name . start ,
current - > locals [ args ] . name . length ) ) ;
krk_push ( value ) ;
krk_writeValueArray ( & function - > keywordArgNames , value ) ;
krk_pop ( ) ;
args + + ;
}
if ( current - > function - > collectsKeywords ) {
KrkValue value = OBJECT_VAL ( krk_copyString ( current - > locals [ args ] . name . start ,
current - > locals [ args ] . name . length ) ) ;
krk_push ( value ) ;
krk_writeValueArray ( & function - > keywordArgNames , value ) ;
krk_pop ( ) ;
args + + ;
}
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# ifdef ENABLE_DISASSEMBLY
if ( ( vm . flags & KRK_ENABLE_DISASSEMBLY ) & & ! parser . hadError ) {
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krk_disassembleChunk ( stderr , function , function - > name ? function - > name - > chars : " <module> " ) ;
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fprintf ( stderr , " Function metadata: requiredArgs=%d keywordArgs=%d upvalueCount=%d \n " ,
function - > requiredArgs , function - > keywordArgs , ( int ) function - > upvalueCount ) ;
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fprintf ( stderr , " __doc__: \" %s \" \n " , function - > docstring ? function - > docstring - > chars : " " ) ;
fprintf ( stderr , " Constants: " ) ;
for ( size_t i = 0 ; i < currentChunk ( ) - > constants . count ; + + i ) {
fprintf ( stderr , " %d: " , ( int ) i ) ;
krk_printValueSafe ( stderr , currentChunk ( ) - > constants . values [ i ] ) ;
if ( i ! = currentChunk ( ) - > constants . count - 1 ) {
fprintf ( stderr , " , " ) ;
}
}
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fprintf ( stderr , " \n Required arguments: " ) ;
int i = 0 ;
for ( ; i < function - > requiredArgs ; + + i ) {
fprintf ( stderr , " %.*s%s " ,
( int ) current - > locals [ i ] . name . length ,
current - > locals [ i ] . name . start ,
( i = = function - > requiredArgs - 1 ) ? " " : " , " ) ;
}
fprintf ( stderr , " \n Keyword arguments: " ) ;
for ( ; i < function - > requiredArgs + function - > keywordArgs ; + + i ) {
fprintf ( stderr , " %.*s=None%s " ,
( int ) current - > locals [ i ] . name . length ,
current - > locals [ i ] . name . start ,
( i = = function - > keywordArgs - 1 ) ? " " : " , " ) ;
}
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fprintf ( stderr , " \n " ) ;
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}
# endif
current = current - > enclosing ;
return function ;
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}
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static void freeCompiler ( Compiler * compiler ) {
FREE_ARRAY ( Local , compiler - > locals , compiler - > localsSpace ) ;
FREE_ARRAY ( Upvalue , compiler - > upvalues , compiler - > upvaluesSpace ) ;
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FREE_ARRAY ( int , compiler - > breaks , compiler - > breakSpace ) ;
FREE_ARRAY ( int , compiler - > continues , compiler - > continueSpace ) ;
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}
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static size_t emitConstant ( KrkValue value ) {
return krk_writeConstant ( currentChunk ( ) , value , parser . previous . line ) ;
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}
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static void number ( int canAssign ) {
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const char * start = parser . previous . start ;
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int base = 10 ;
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/* These special cases for hexadecimal, binary, octal values. */
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if ( start [ 0 ] = = ' 0 ' & & ( start [ 1 ] = = ' x ' | | start [ 1 ] = = ' X ' ) ) {
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base = 16 ;
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start + = 2 ;
} else if ( start [ 0 ] = = ' 0 ' & & ( start [ 1 ] = = ' b ' | | start [ 1 ] = = ' B ' ) ) {
base = 2 ;
start + = 2 ;
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} else if ( start [ 0 ] = = ' 0 ' & & ( start [ 1 ] = = ' o ' | | start [ 1 ] = = ' O ' ) ) {
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base = 8 ;
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start + = 2 ;
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}
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/* If it wasn't a special base, it may be a floating point value. */
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if ( base = = 10 ) {
for ( size_t j = 0 ; j < parser . previous . length ; + + j ) {
if ( parser . previous . start [ j ] = = ' . ' ) {
double value = strtod ( start , NULL ) ;
emitConstant ( FLOATING_VAL ( value ) ) ;
return ;
}
}
}
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/* If we got here, it's an integer of some sort. */
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krk_integer_type value = parseStrInt ( start , NULL , base ) ;
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emitConstant ( INTEGER_VAL ( value ) ) ;
}
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static void binary ( int canAssign ) {
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KrkTokenType operatorType = parser . previous . type ;
ParseRule * rule = getRule ( operatorType ) ;
parsePrecedence ( ( Precedence ) ( rule - > precedence + 1 ) ) ;
switch ( operatorType ) {
case TOKEN_BANG_EQUAL : emitBytes ( OP_EQUAL , OP_NOT ) ; break ;
case TOKEN_EQUAL_EQUAL : emitByte ( OP_EQUAL ) ; break ;
case TOKEN_GREATER : emitByte ( OP_GREATER ) ; break ;
case TOKEN_GREATER_EQUAL : emitBytes ( OP_LESS , OP_NOT ) ; break ;
case TOKEN_LESS : emitByte ( OP_LESS ) ; break ;
case TOKEN_LESS_EQUAL : emitBytes ( OP_GREATER , OP_NOT ) ; break ;
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case TOKEN_PIPE : emitByte ( OP_BITOR ) ; break ;
case TOKEN_CARET : emitByte ( OP_BITXOR ) ; break ;
case TOKEN_AMPERSAND : emitByte ( OP_BITAND ) ; break ;
case TOKEN_LEFT_SHIFT : emitByte ( OP_SHIFTLEFT ) ; break ;
case TOKEN_RIGHT_SHIFT : emitByte ( OP_SHIFTRIGHT ) ; break ;
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case TOKEN_PLUS : emitByte ( OP_ADD ) ; break ;
case TOKEN_MINUS : emitByte ( OP_SUBTRACT ) ; break ;
case TOKEN_ASTERISK : emitByte ( OP_MULTIPLY ) ; break ;
case TOKEN_SOLIDUS : emitByte ( OP_DIVIDE ) ; break ;
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case TOKEN_MODULO : emitByte ( OP_MODULO ) ; break ;
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case TOKEN_IN : emitByte ( OP_EQUAL ) ; break ;
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default : return ;
}
}
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static int matchAssignment ( void ) {
return match ( TOKEN_EQUAL ) | | match ( TOKEN_PLUS_EQUAL ) | | match ( TOKEN_MINUS_EQUAL ) | |
match ( TOKEN_PLUS_PLUS ) | | match ( TOKEN_MINUS_MINUS ) ;
}
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static int matchEndOfDel ( void ) {
return check ( TOKEN_COMMA ) | | match ( TOKEN_EOL ) | | match ( TOKEN_EOF ) ;
}
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static void assignmentValue ( void ) {
switch ( parser . previous . type ) {
case TOKEN_PLUS_EQUAL :
expression ( ) ;
emitByte ( OP_ADD ) ;
break ;
case TOKEN_MINUS_EQUAL :
expression ( ) ;
emitByte ( OP_SUBTRACT ) ;
break ;
case TOKEN_PLUS_PLUS :
emitConstant ( INTEGER_VAL ( 1 ) ) ;
emitByte ( OP_ADD ) ;
break ;
case TOKEN_MINUS_MINUS :
emitConstant ( INTEGER_VAL ( 1 ) ) ;
emitByte ( OP_SUBTRACT ) ;
break ;
default :
error ( " Unexpected operand in assignment " ) ;
break ;
}
}
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static void get_ ( int canAssign ) {
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int isSlice = 0 ;
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if ( match ( TOKEN_COLON ) ) {
emitByte ( OP_NONE ) ;
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isSlice = 1 ;
2020-12-31 12:14:20 +03:00
} else {
2020-12-27 16:40:35 +03:00
expression ( ) ;
2020-12-31 12:14:20 +03:00
}
2021-01-01 14:52:18 +03:00
if ( isSlice | | match ( TOKEN_COLON ) ) {
if ( isSlice & & match ( TOKEN_COLON ) ) {
2020-12-31 12:14:20 +03:00
error ( " Step value not supported in slice. " ) ;
return ;
}
if ( match ( TOKEN_RIGHT_SQUARE ) ) {
emitByte ( OP_NONE ) ;
} else {
expression ( ) ;
consume ( TOKEN_RIGHT_SQUARE , " Expected ending square bracket after slice. " ) ;
}
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if ( canAssign & & matchAssignment ( ) ) {
2021-01-14 10:00:43 +03:00
error ( " Slice assignment not implemented. " ) ;
} else if ( inDel & & matchEndOfDel ( ) ) {
error ( " Slice deletion not implemented. " ) ;
2020-12-31 12:14:20 +03:00
} else {
2021-01-01 14:52:18 +03:00
emitByte ( OP_INVOKE_GETSLICE ) ;
2020-12-31 12:14:20 +03:00
}
2020-12-27 16:40:35 +03:00
} else {
2020-12-31 12:14:20 +03:00
consume ( TOKEN_RIGHT_SQUARE , " Expected ending square bracket after index. " ) ;
if ( canAssign & & match ( TOKEN_EQUAL ) ) {
expression ( ) ;
2021-01-01 14:52:18 +03:00
emitByte ( OP_INVOKE_SETTER ) ;
2021-01-01 04:42:16 +03:00
} else if ( canAssign & & matchAssignment ( ) ) {
2021-01-04 12:15:17 +03:00
emitBytes ( OP_DUP , 1 ) ; /* o e o */
emitBytes ( OP_DUP , 1 ) ; /* o e o e */
emitByte ( OP_INVOKE_GETTER ) ; /* o e v */
assignmentValue ( ) ; /* o e v a */
2021-01-04 12:10:55 +03:00
emitByte ( OP_INVOKE_SETTER ) ; /* r */
2021-01-14 10:00:43 +03:00
} else if ( inDel & & matchEndOfDel ( ) ) {
if ( ! canAssign | | inDel ! = 1 ) {
error ( " Invalid del target " ) ;
} else if ( canAssign ) {
emitByte ( OP_INVOKE_DELETE ) ;
inDel = 2 ;
}
2020-12-31 12:14:20 +03:00
} else {
2021-01-01 14:52:18 +03:00
emitByte ( OP_INVOKE_GETTER ) ;
2020-12-31 12:14:20 +03:00
}
2020-12-27 16:40:35 +03:00
}
}
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static void dot ( int canAssign ) {
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if ( match ( TOKEN_LEFT_PAREN ) ) {
startEatingWhitespace ( ) ;
size_t argCount = 0 ;
size_t argSpace = 1 ;
ssize_t * args = GROW_ARRAY ( ssize_t , NULL , 0 , 1 ) ;
do {
if ( argSpace < argCount + 1 ) {
size_t old = argSpace ;
argSpace = GROW_CAPACITY ( old ) ;
args = GROW_ARRAY ( ssize_t , args , old , argSpace ) ;
}
consume ( TOKEN_IDENTIFIER , " Expected attribute name " ) ;
size_t ind = identifierConstant ( & parser . previous ) ;
args [ argCount + + ] = ind ;
} while ( match ( TOKEN_COMMA ) ) ;
stopEatingWhitespace ( ) ;
consume ( TOKEN_RIGHT_PAREN , " Expected ) after attribute list " ) ;
if ( canAssign & & match ( TOKEN_EQUAL ) ) {
size_t expressionCount = 0 ;
do {
expressionCount + + ;
expression ( ) ;
} while ( match ( TOKEN_COMMA ) ) ;
if ( expressionCount = = 1 & & argCount > 1 ) {
EMIT_CONSTANT_OP ( OP_UNPACK , argCount ) ;
} else if ( expressionCount > 1 & & argCount = = 1 ) {
EMIT_CONSTANT_OP ( OP_TUPLE , expressionCount ) ;
} else if ( expressionCount ! = argCount ) {
error ( " Invalid assignment to attribute pack " ) ;
goto _dotDone ;
}
for ( size_t i = argCount ; i > 0 ; i - - ) {
if ( i ! = 1 ) {
emitBytes ( OP_DUP , i ) ;
emitByte ( OP_SWAP ) ;
}
EMIT_CONSTANT_OP ( OP_SET_PROPERTY , args [ i - 1 ] ) ;
if ( i ! = 1 ) {
emitByte ( OP_POP ) ;
}
}
} else {
for ( size_t i = 0 ; i < argCount ; i + + ) {
emitBytes ( OP_DUP , 0 ) ;
EMIT_CONSTANT_OP ( OP_GET_PROPERTY , args [ i ] ) ;
emitByte ( OP_SWAP ) ;
}
emitByte ( OP_POP ) ;
emitBytes ( OP_TUPLE , argCount ) ;
}
_dotDone :
FREE_ARRAY ( ssize_t , args , argSpace ) ;
return ;
}
2021-01-01 04:42:16 +03:00
consume ( TOKEN_IDENTIFIER , " Expected property name " ) ;
2020-12-27 10:45:34 +03:00
size_t ind = identifierConstant ( & parser . previous ) ;
if ( canAssign & & match ( TOKEN_EQUAL ) ) {
expression ( ) ;
EMIT_CONSTANT_OP ( OP_SET_PROPERTY , ind ) ;
2021-01-01 04:42:16 +03:00
} else if ( canAssign & & matchAssignment ( ) ) {
emitBytes ( OP_DUP , 0 ) ; /* Duplicate the object */
EMIT_CONSTANT_OP ( OP_GET_PROPERTY , ind ) ;
assignmentValue ( ) ;
EMIT_CONSTANT_OP ( OP_SET_PROPERTY , ind ) ;
2021-01-14 10:00:43 +03:00
} else if ( inDel & & matchEndOfDel ( ) ) {
if ( ! canAssign | | inDel ! = 1 ) {
error ( " Invalid del target " ) ;
} else {
EMIT_CONSTANT_OP ( OP_DEL_PROPERTY , ind ) ;
inDel = 2 ;
}
2020-12-27 10:45:34 +03:00
} else {
EMIT_CONSTANT_OP ( OP_GET_PROPERTY , ind ) ;
}
}
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static void in_ ( int canAssign ) {
parsePrecedence ( PREC_COMPARISON ) ;
KrkToken contains = syntheticToken ( " __contains__ " ) ;
ssize_t ind = identifierConstant ( & contains ) ;
EMIT_CONSTANT_OP ( OP_GET_PROPERTY , ind ) ;
emitByte ( OP_SWAP ) ;
emitBytes ( OP_CALL , 1 ) ;
}
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static void not_ ( int canAssign ) {
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consume ( TOKEN_IN , " infix not must be followed by in \n " ) ;
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in_ ( canAssign ) ;
emitByte ( OP_NOT ) ;
}
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static void is_ ( int canAssign ) {
int invert = match ( TOKEN_NOT ) ;
parsePrecedence ( PREC_COMPARISON ) ;
emitByte ( OP_IS ) ;
if ( invert ) emitByte ( OP_NOT ) ;
}
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static void literal ( int canAssign ) {
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switch ( parser . previous . type ) {
case TOKEN_FALSE : emitByte ( OP_FALSE ) ; break ;
case TOKEN_NONE : emitByte ( OP_NONE ) ; break ;
case TOKEN_TRUE : emitByte ( OP_TRUE ) ; break ;
default : return ;
}
}
static void expression ( ) {
parsePrecedence ( PREC_ASSIGNMENT ) ;
}
2021-01-14 15:16:48 +03:00
static void letDeclaration ( void ) {
size_t argCount = 0 ;
size_t argSpace = 1 ;
ssize_t * args = GROW_ARRAY ( ssize_t , NULL , 0 , 1 ) ;
do {
if ( argSpace < argCount + 1 ) {
size_t old = argSpace ;
argSpace = GROW_CAPACITY ( old ) ;
args = GROW_ARRAY ( ssize_t , args , old , argSpace ) ;
}
ssize_t ind = parseVariable ( " Expected variable name. " ) ;
if ( current - > scopeDepth > 0 ) {
/* Need locals space */
args [ argCount + + ] = current - > localCount - 1 ;
} else {
args [ argCount + + ] = ind ;
}
} while ( match ( TOKEN_COMMA ) ) ;
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if ( match ( TOKEN_EQUAL ) ) {
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size_t expressionCount = 0 ;
do {
expressionCount + + ;
expression ( ) ;
} while ( match ( TOKEN_COMMA ) ) ;
if ( expressionCount = = 1 & & argCount > 1 ) {
EMIT_CONSTANT_OP ( OP_UNPACK , argCount ) ;
} else if ( expressionCount = = argCount ) {
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/* Do nothing */
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} else if ( expressionCount > 1 & & argCount = = 1 ) {
EMIT_CONSTANT_OP ( OP_TUPLE , expressionCount ) ;
} else {
error ( " Invalid sequence unpack in 'let' statement " ) ;
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goto _letDone ;
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}
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} else {
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/* Need to nil it */
for ( size_t i = 0 ; i < argCount ; + + i ) {
emitByte ( OP_NONE ) ;
}
2020-12-26 10:53:15 +03:00
}
2021-01-14 15:16:48 +03:00
if ( current - > scopeDepth = = 0 ) {
for ( size_t i = argCount ; i > 0 ; i - - ) {
defineVariable ( args [ i - 1 ] ) ;
}
2021-01-15 02:50:44 +03:00
} else {
for ( size_t i = 0 ; i < argCount ; i + + ) {
current - > locals [ current - > localCount - 1 - i ] . depth = current - > scopeDepth ;
}
2021-01-14 15:16:48 +03:00
}
2021-01-15 01:41:40 +03:00
_letDone :
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if ( ! match ( TOKEN_EOL ) & & ! match ( TOKEN_EOF ) ) {
error ( " Expected end of line after 'let' statement. " ) ;
}
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FREE_ARRAY ( ssize_t , args , argSpace ) ;
return ;
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}
static void synchronize ( ) {
parser . panicMode = 0 ;
while ( parser . current . type ! = TOKEN_EOF ) {
if ( parser . previous . type = = TOKEN_EOL ) return ;
switch ( parser . current . type ) {
case TOKEN_CLASS :
case TOKEN_DEF :
case TOKEN_LET :
case TOKEN_FOR :
case TOKEN_IF :
case TOKEN_WHILE :
case TOKEN_RETURN :
return ;
default : break ;
}
advance ( ) ;
}
}
static void declaration ( ) {
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if ( check ( TOKEN_DEF ) ) {
defDeclaration ( ) ;
} else if ( match ( TOKEN_LET ) ) {
2021-01-14 15:16:48 +03:00
letDeclaration ( ) ;
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} else if ( check ( TOKEN_CLASS ) ) {
classDeclaration ( ) ;
2021-01-02 15:58:24 +03:00
} else if ( check ( TOKEN_AT ) ) {
decorator ( 0 , TYPE_FUNCTION ) ;
2020-12-29 06:40:19 +03:00
} else if ( match ( TOKEN_EOL ) | | match ( TOKEN_EOF ) ) {
2020-12-26 14:39:47 +03:00
return ;
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} else if ( check ( TOKEN_INDENTATION ) ) {
return ;
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} else {
statement ( ) ;
}
if ( parser . panicMode ) synchronize ( ) ;
}
static void expressionStatement ( ) {
expression ( ) ;
emitByte ( OP_POP ) ;
}
2020-12-27 03:33:28 +03:00
static void beginScope ( ) {
current - > scopeDepth + + ;
}
static void endScope ( ) {
current - > scopeDepth - - ;
while ( current - > localCount > 0 & &
2020-12-28 05:11:50 +03:00
current - > locals [ current - > localCount - 1 ] . depth > ( ssize_t ) current - > scopeDepth ) {
2021-01-06 09:03:56 +03:00
for ( size_t i = 0 ; i < current - > function - > localNameCount ; i + + ) {
if ( current - > function - > localNames [ i ] . id = = current - > localCount - 1 ) {
current - > function - > localNames [ i ] . deathday = ( size_t ) currentChunk ( ) - > count ;
}
}
2020-12-27 07:02:26 +03:00
if ( current - > locals [ current - > localCount - 1 ] . isCaptured ) {
emitByte ( OP_CLOSE_UPVALUE ) ;
} else {
emitByte ( OP_POP ) ;
}
2020-12-27 03:33:28 +03:00
current - > localCount - - ;
}
}
2021-01-03 06:32:04 +03:00
static int emitJump ( uint8_t opcode ) {
emitByte ( opcode ) ;
emitBytes ( 0xFF , 0xFF ) ;
return currentChunk ( ) - > count - 2 ;
}
static void patchJump ( int offset ) {
int jump = currentChunk ( ) - > count - offset - 2 ;
if ( jump > 0xFFFF ) {
error ( " Unsupported far jump (we'll get there) " ) ;
}
currentChunk ( ) - > code [ offset ] = ( jump > > 8 ) & 0xFF ;
currentChunk ( ) - > code [ offset + 1 ] = ( jump ) & 0xFF ;
}
2020-12-29 09:26:45 +03:00
static void block ( size_t indentation , const char * blockName ) {
2020-12-26 12:39:29 +03:00
if ( match ( TOKEN_EOL ) ) {
if ( check ( TOKEN_INDENTATION ) ) {
size_t currentIndentation = parser . current . length ;
2020-12-30 10:59:21 +03:00
if ( currentIndentation < = indentation ) return ;
advance ( ) ;
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if ( ! strcmp ( blockName , " def " ) & & ( match ( TOKEN_STRING ) | | match ( TOKEN_BIG_STRING ) ) ) {
2020-12-30 10:59:21 +03:00
size_t before = currentChunk ( ) - > count ;
2021-01-04 10:20:01 +03:00
string ( parser . previous . type = = TOKEN_BIG_STRING ) ;
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/* That wrote to the chunk, rewind it; this should only ever go back two bytes
* because this should only happen as the first thing in a function definition ,
* and thus this _should_ be the first constant and thus opcode + one - byte operand
* to OP_CONSTANT , but just to be safe we ' ll actually use the previous offset . . . */
currentChunk ( ) - > count = before ;
/* Retreive the docstring from the constant table */
current - > function - > docstring = AS_STRING ( currentChunk ( ) - > constants . values [ currentChunk ( ) - > constants . count - 1 ] ) ;
consume ( TOKEN_EOL , " Garbage after docstring defintion " ) ;
if ( ! check ( TOKEN_INDENTATION ) | | parser . current . length ! = currentIndentation ) {
error ( " Expected at least one statement in function with docstring. " ) ;
}
advance ( ) ;
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}
2020-12-30 10:59:21 +03:00
declaration ( ) ;
while ( check ( TOKEN_INDENTATION ) ) {
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if ( parser . current . length < currentIndentation ) break ;
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advance ( ) ;
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declaration ( ) ;
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if ( check ( TOKEN_EOL ) ) {
advance ( ) ;
}
2020-12-30 10:59:21 +03:00
} ;
2021-01-02 06:21:11 +03:00
# ifdef ENABLE_SCAN_TRACING
if ( vm . flags & KRK_ENABLE_SCAN_TRACING ) {
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fprintf ( stderr , " \n \n finished with block %s (ind=%d) on line %d, sitting on a %s (len=%d) \n \n " ,
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blockName , ( int ) indentation , ( int ) parser . current . line ,
getRule ( parser . current . type ) - > name , ( int ) parser . current . length ) ;
2020-12-28 07:35:02 +03:00
}
2020-12-29 06:26:26 +03:00
# endif
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}
} else {
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statement ( ) ;
2020-12-26 12:39:29 +03:00
}
}
2021-01-05 07:28:45 +03:00
static void doUpvalues ( Compiler * compiler , KrkFunction * function ) {
for ( size_t i = 0 ; i < function - > upvalueCount ; + + i ) {
emitByte ( compiler - > upvalues [ i ] . isLocal ? 1 : 0 ) ;
if ( i > 255 ) {
emitByte ( ( compiler - > upvalues [ i ] . index > > 16 ) & 0xFF ) ;
emitByte ( ( compiler - > upvalues [ i ] . index > > 8 ) & 0xFF ) ;
}
emitByte ( ( compiler - > upvalues [ i ] . index ) & 0xFF ) ;
}
}
2020-12-28 05:11:50 +03:00
static void function ( FunctionType type , size_t blockWidth ) {
2020-12-27 03:33:28 +03:00
Compiler compiler ;
initCompiler ( & compiler , type ) ;
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compiler . function - > chunk . filename = compiler . enclosing - > function - > chunk . filename ;
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beginScope ( ) ;
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if ( type = = TYPE_METHOD | | type = = TYPE_INIT ) current - > function - > requiredArgs = 1 ;
2021-01-03 10:02:50 +03:00
int hasCollectors = 0 ;
2020-12-27 03:33:28 +03:00
consume ( TOKEN_LEFT_PAREN , " Expected start of parameter list after function name. " ) ;
2021-01-04 03:49:56 +03:00
startEatingWhitespace ( ) ;
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if ( ! check ( TOKEN_RIGHT_PAREN ) ) {
do {
2020-12-27 11:53:46 +03:00
if ( match ( TOKEN_SELF ) ) {
if ( type ! = TYPE_INIT & & type ! = TYPE_METHOD ) {
error ( " Invalid use of `self` as a function paramenter. " ) ;
}
continue ;
}
2021-01-03 10:02:50 +03:00
if ( match ( TOKEN_ASTERISK ) ) {
if ( match ( TOKEN_ASTERISK ) ) {
if ( hasCollectors = = 2 ) {
error ( " Duplicate ** in parameter list. " ) ;
return ;
}
hasCollectors = 2 ;
current - > function - > collectsKeywords = 1 ;
} else {
if ( hasCollectors ) {
error ( " Syntax error. " ) ;
return ;
}
hasCollectors = 1 ;
current - > function - > collectsArguments = 1 ;
}
/* Collect a name, specifically "args" or "kwargs" are commont */
ssize_t paramConstant = parseVariable ( " Expect parameter name. " ) ;
defineVariable ( paramConstant ) ;
/* Make that a valid local for this function */
size_t myLocal = current - > localCount - 1 ;
EMIT_CONSTANT_OP ( OP_GET_LOCAL , myLocal ) ;
/* Check if it's equal to the unset-kwarg-sentinel value */
emitConstant ( KWARGS_VAL ( 0 ) ) ;
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emitByte ( OP_IS ) ;
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int jumpIndex = emitJump ( OP_JUMP_IF_FALSE ) ;
/* And if it is, set it to the appropriate type */
beginScope ( ) ;
KrkToken synth = syntheticToken ( hasCollectors = = 1 ? " listOf " : " dictOf " ) ;
namedVariable ( synth , 0 ) ;
emitBytes ( OP_CALL , 0 ) ;
EMIT_CONSTANT_OP ( OP_SET_LOCAL , myLocal ) ;
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emitByte ( OP_POP ) ; /* local value */
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endScope ( ) ;
/* Otherwise pop the comparison. */
patchJump ( jumpIndex ) ;
emitByte ( OP_POP ) ; /* comparison value */
continue ;
}
2020-12-27 03:33:28 +03:00
ssize_t paramConstant = parseVariable ( " Expect parameter name. " ) ;
defineVariable ( paramConstant ) ;
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if ( match ( TOKEN_EQUAL ) ) {
2021-01-03 06:32:04 +03:00
/*
* We inline default arguments by checking if they are equal
* to a sentinel value and replacing them with the requested
* argument . This allows us to send None ( useful ) to override
* defaults that are something else . This essentially ends
* up as the following at the top of the function :
* if param = = KWARGS_SENTINEL :
* param = EXPRESSION
*/
size_t myLocal = current - > localCount - 1 ;
EMIT_CONSTANT_OP ( OP_GET_LOCAL , myLocal ) ;
emitConstant ( KWARGS_VAL ( 0 ) ) ;
emitByte ( OP_EQUAL ) ;
int jumpIndex = emitJump ( OP_JUMP_IF_FALSE ) ;
beginScope ( ) ;
expression ( ) ; /* Read expression */
EMIT_CONSTANT_OP ( OP_SET_LOCAL , myLocal ) ;
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emitByte ( OP_POP ) ; /* local value */
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endScope ( ) ;
patchJump ( jumpIndex ) ;
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emitByte ( OP_POP ) ;
2021-01-03 06:09:41 +03:00
current - > function - > keywordArgs + + ;
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} else {
current - > function - > requiredArgs + + ;
}
2020-12-27 03:33:28 +03:00
} while ( match ( TOKEN_COMMA ) ) ;
}
2021-01-04 03:49:56 +03:00
stopEatingWhitespace ( ) ;
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consume ( TOKEN_RIGHT_PAREN , " Expected end of parameter list. " ) ;
consume ( TOKEN_COLON , " Expected colon after function signature. " ) ;
2020-12-29 09:26:45 +03:00
block ( blockWidth , " def " ) ;
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KrkFunction * function = endCompiler ( ) ;
2020-12-27 07:02:26 +03:00
size_t ind = krk_addConstant ( currentChunk ( ) , OBJECT_VAL ( function ) ) ;
EMIT_CONSTANT_OP ( OP_CLOSURE , ind ) ;
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doUpvalues ( & compiler , function ) ;
2020-12-29 00:13:30 +03:00
freeCompiler ( & compiler ) ;
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}
2020-12-28 05:11:50 +03:00
static void method ( size_t blockWidth ) {
2020-12-27 11:53:46 +03:00
/* This is actually "inside of a class definition", and that might mean
* arbitrary blank lines we need to accept . . . Sorry . */
2020-12-29 09:26:45 +03:00
if ( match ( TOKEN_EOL ) ) {
return ;
}
2020-12-27 11:53:46 +03:00
/* def method(...): - just like functions; unlike Python, I'm just always
* going to assign ` self ` because Lox always assigns ` this ` ; it should not
* show up in the initializer list ; I may add support for it being there
* as a redundant thing , just to make more Python stuff work with changes . */
2021-01-03 02:31:28 +03:00
if ( check ( TOKEN_AT ) ) {
decorator ( 0 , TYPE_METHOD ) ;
2021-01-11 10:31:34 +03:00
} else if ( match ( TOKEN_IDENTIFIER ) ) {
emitBytes ( OP_DUP , 0 ) ; /* SET_PROPERTY will pop class */
size_t ind = identifierConstant ( & parser . previous ) ;
consume ( TOKEN_EQUAL , " Class field must have value. " ) ;
expression ( ) ;
EMIT_CONSTANT_OP ( OP_SET_PROPERTY , ind ) ;
emitByte ( OP_POP ) ; /* Value of expression replaces dup of class*/
if ( ! match ( TOKEN_EOL ) & & ! match ( TOKEN_EOF ) ) {
errorAtCurrent ( " Expected end of line after class attribut declaration " ) ;
}
2021-01-03 02:31:28 +03:00
} else {
consume ( TOKEN_DEF , " expected a definition, got nothing " ) ;
consume ( TOKEN_IDENTIFIER , " expected method name " ) ;
size_t ind = identifierConstant ( & parser . previous ) ;
FunctionType type = TYPE_METHOD ;
2020-12-27 11:53:46 +03:00
2021-01-03 02:31:28 +03:00
if ( parser . previous . length = = 8 & & memcmp ( parser . previous . start , " __init__ " , 8 ) = = 0 ) {
type = TYPE_INIT ;
}
2020-12-27 11:53:46 +03:00
2021-01-03 02:31:28 +03:00
function ( type , blockWidth ) ;
EMIT_CONSTANT_OP ( OP_METHOD , ind ) ;
}
2020-12-27 11:53:46 +03:00
}
2020-12-27 10:45:34 +03:00
static void classDeclaration ( ) {
2020-12-28 05:11:50 +03:00
size_t blockWidth = ( parser . previous . type = = TOKEN_INDENTATION ) ? parser . previous . length : 0 ;
2020-12-27 10:45:34 +03:00
advance ( ) ; /* Collect the `class` */
consume ( TOKEN_IDENTIFIER , " Expected class name. " ) ;
2020-12-27 11:53:46 +03:00
KrkToken className = parser . previous ;
2020-12-27 10:45:34 +03:00
size_t constInd = identifierConstant ( & parser . previous ) ;
declareVariable ( ) ;
EMIT_CONSTANT_OP ( OP_CLASS , constInd ) ;
defineVariable ( constInd ) ;
2020-12-27 11:53:46 +03:00
ClassCompiler classCompiler ;
classCompiler . name = parser . previous ;
classCompiler . enclosing = currentClass ;
currentClass = & classCompiler ;
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int hasSuperclass = 0 ;
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if ( match ( TOKEN_LEFT_PAREN ) ) {
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startEatingWhitespace ( ) ;
if ( ! check ( TOKEN_RIGHT_PAREN ) ) {
expression ( ) ;
hasSuperclass = 1 ;
}
stopEatingWhitespace ( ) ;
consume ( TOKEN_RIGHT_PAREN , " Expected ) after superclass. " ) ;
}
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if ( ! hasSuperclass ) {
KrkToken Object = syntheticToken ( " object " ) ;
size_t ind = identifierConstant ( & Object ) ;
EMIT_CONSTANT_OP ( OP_GET_GLOBAL , ind ) ;
}
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beginScope ( ) ;
addLocal ( syntheticToken ( " super " ) ) ;
defineVariable ( 0 ) ;
if ( hasSuperclass ) {
namedVariable ( className , 0 ) ;
emitByte ( OP_INHERIT ) ;
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}
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namedVariable ( className , 0 ) ;
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consume ( TOKEN_COLON , " Expected colon after class " ) ;
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if ( match ( TOKEN_EOL ) ) {
if ( check ( TOKEN_INDENTATION ) ) {
size_t currentIndentation = parser . current . length ;
if ( currentIndentation < = blockWidth ) {
errorAtCurrent ( " Unexpected indentation level for class " ) ;
}
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advance ( ) ;
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if ( match ( TOKEN_STRING ) | | match ( TOKEN_BIG_STRING ) ) {
string ( parser . previous . type = = TOKEN_BIG_STRING ) ;
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emitByte ( OP_DOCSTRING ) ;
consume ( TOKEN_EOL , " Garbage after docstring defintion " ) ;
if ( ! check ( TOKEN_INDENTATION ) | | parser . current . length ! = currentIndentation ) {
goto _pop_class ;
}
advance ( ) ;
}
method ( currentIndentation ) ;
while ( check ( TOKEN_INDENTATION ) ) {
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if ( parser . current . length < currentIndentation ) break ;
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advance ( ) ; /* Pass the indentation */
method ( currentIndentation ) ;
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}
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# ifdef ENABLE_SCAN_TRACING
if ( vm . flags & KRK_ENABLE_SCAN_TRACING ) fprintf ( stderr , " Exiting from class definition on %s \n " , getRule ( parser . current . type ) - > name ) ;
# endif
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/* Exit from block */
}
} /* else empty class (and at end of file?) we'll allow it for now... */
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_pop_class :
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emitByte ( OP_FINALIZE ) ;
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endScope ( ) ;
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currentClass = currentClass - > enclosing ;
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}
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static void markInitialized ( ) {
if ( current - > scopeDepth = = 0 ) return ;
current - > locals [ current - > localCount - 1 ] . depth = current - > scopeDepth ;
}
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static void lambda ( ) {
Compiler lambdaCompiler ;
parser . previous = syntheticToken ( " <lambda> " ) ;
initCompiler ( & lambdaCompiler , TYPE_LAMBDA ) ;
lambdaCompiler . function - > chunk . filename = lambdaCompiler . enclosing - > function - > chunk . filename ;
beginScope ( ) ;
if ( ! check ( TOKEN_COLON ) ) {
do {
ssize_t paramConstant = parseVariable ( " Expect parameter name. " ) ;
defineVariable ( paramConstant ) ;
current - > function - > requiredArgs + + ;
} while ( match ( TOKEN_COMMA ) ) ;
}
consume ( TOKEN_COLON , " expected : after lambda arguments " ) ;
expression ( ) ;
KrkFunction * lambda = endCompiler ( ) ;
size_t ind = krk_addConstant ( currentChunk ( ) , OBJECT_VAL ( lambda ) ) ;
EMIT_CONSTANT_OP ( OP_CLOSURE , ind ) ;
doUpvalues ( & lambdaCompiler , lambda ) ;
freeCompiler ( & lambdaCompiler ) ;
}
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static void defDeclaration ( ) {
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size_t blockWidth = ( parser . previous . type = = TOKEN_INDENTATION ) ? parser . previous . length : 0 ;
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advance ( ) ; /* Collect the `def` */
ssize_t global = parseVariable ( " Expected function name. " ) ;
markInitialized ( ) ;
function ( TYPE_FUNCTION , blockWidth ) ;
defineVariable ( global ) ;
}
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static KrkToken decorator ( size_t level , FunctionType type ) {
size_t blockWidth = ( parser . previous . type = = TOKEN_INDENTATION ) ? parser . previous . length : 0 ;
advance ( ) ; /* Collect the `@` */
/* Collect an identifier */
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expression ( ) ;
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consume ( TOKEN_EOL , " Expected line feed after decorator. " ) ;
if ( blockWidth ) {
consume ( TOKEN_INDENTATION , " Expected next line after decorator to have same indentation. " ) ;
if ( parser . previous . length ! = blockWidth ) error ( " Expected next line after decorator to have same indentation. " ) ;
}
KrkToken funcName ;
if ( check ( TOKEN_DEF ) ) {
/* We already checked for block level */
advance ( ) ;
consume ( TOKEN_IDENTIFIER , " Expected function name. " ) ;
funcName = parser . previous ;
if ( type = = TYPE_METHOD & & funcName . length = = 8 & & ! memcmp ( funcName . start , " __init__ " , 8 ) ) {
type = TYPE_INIT ;
}
function ( type , blockWidth ) ;
} else if ( check ( TOKEN_AT ) ) {
funcName = decorator ( level + 1 , type ) ;
} else {
error ( " Expected a function declaration or another decorator. " ) ;
}
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emitBytes ( OP_CALL , 1 ) ;
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if ( level = = 0 ) {
if ( type = = TYPE_FUNCTION ) {
parser . previous = funcName ;
declareVariable ( ) ;
size_t ind = ( current - > scopeDepth > 0 ) ? 0 : identifierConstant ( & funcName ) ;
defineVariable ( ind ) ;
} else {
size_t ind = identifierConstant ( & funcName ) ;
EMIT_CONSTANT_OP ( OP_METHOD , ind ) ;
}
}
return funcName ;
}
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static void emitLoop ( int loopStart ) {
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/* Patch continue statements to point to here, before the loop operation (yes that's silly) */
while ( current - > continueCount > 0 & & current - > continues [ current - > continueCount - 1 ] > loopStart ) {
patchJump ( current - > continues [ current - > continueCount - 1 ] ) ;
current - > continueCount - - ;
}
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emitByte ( OP_LOOP ) ;
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int offset = currentChunk ( ) - > count - loopStart + 2 ;
if ( offset > 0xFFFF ) error ( " offset too big " ) ;
emitBytes ( offset > > 8 , offset ) ;
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/* Patch break statements */
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}
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static void withStatement ( ) {
/* TODO: Multiple items, I'm feeling lazy. */
/* We only need this for block() */
size_t blockWidth = ( parser . previous . type = = TOKEN_INDENTATION ) ? parser . previous . length : 0 ;
/* Collect the with token that started this statement */
advance ( ) ;
beginScope ( ) ;
expression ( ) ;
if ( match ( TOKEN_AS ) ) {
consume ( TOKEN_IDENTIFIER , " Expected variable name after 'as' " ) ;
size_t ind = identifierConstant ( & parser . previous ) ;
declareVariable ( ) ;
defineVariable ( ind ) ;
} else {
/* Otherwise we want an unnamed local; TODO: Wait, can't we do this for iterable counts? */
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addLocal ( syntheticToken ( " " ) ) ;
markInitialized ( ) ;
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}
consume ( TOKEN_COLON , " Expected ':' after with statement " ) ;
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addLocal ( syntheticToken ( " " ) ) ;
int withJump = emitJump ( OP_PUSH_WITH ) ;
markInitialized ( ) ;
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beginScope ( ) ;
block ( blockWidth , " with " ) ;
endScope ( ) ;
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patchJump ( withJump ) ;
emitByte ( OP_CLEANUP_WITH ) ;
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/* Scope exit pops context manager */
endScope ( ) ;
}
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static void ifStatement ( ) {
/* Figure out what block level contains us so we can match our partner else */
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size_t blockWidth = ( parser . previous . type = = TOKEN_INDENTATION ) ? parser . previous . length : 0 ;
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KrkToken myPrevious = parser . previous ;
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/* Collect the if token that started this statement */
advance ( ) ;
/* Collect condition expression */
expression ( ) ;
/* if EXPR: */
consume ( TOKEN_COLON , " Expect ':' after condition. " ) ;
int thenJump = emitJump ( OP_JUMP_IF_FALSE ) ;
emitByte ( OP_POP ) ;
/* Start a new scope and enter a block */
beginScope ( ) ;
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block ( blockWidth , " if " ) ;
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endScope ( ) ;
int elseJump = emitJump ( OP_JUMP ) ;
patchJump ( thenJump ) ;
emitByte ( OP_POP ) ;
/* See if we have a matching else block */
if ( blockWidth = = 0 | | ( check ( TOKEN_INDENTATION ) & & ( parser . current . length = = blockWidth ) ) ) {
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/* This is complicated */
KrkToken previous ;
if ( blockWidth ) {
previous = parser . previous ;
advance ( ) ;
}
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if ( match ( TOKEN_ELSE ) | | check ( TOKEN_ELIF ) ) {
if ( parser . current . type = = TOKEN_ELIF | | check ( TOKEN_IF ) ) {
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parser . previous = myPrevious ;
ifStatement ( ) ; /* Keep nesting */
} else {
consume ( TOKEN_COLON , " Expect ':' after else. " ) ;
beginScope ( ) ;
block ( blockWidth , " else " ) ;
endScope ( ) ;
}
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} else if ( ! check ( TOKEN_EOF ) & & ! check ( TOKEN_EOL ) ) {
krk_ungetToken ( parser . current ) ;
parser . current = parser . previous ;
if ( blockWidth ) {
parser . previous = previous ;
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}
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} else {
advance ( ) ; /* Ignore this blank indentation line */
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}
}
patchJump ( elseJump ) ;
}
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static void patchBreaks ( int loopStart ) {
/* Patch break statements to go here, after the loop operation and operand. */
while ( current - > breakCount > 0 & & current - > breaks [ current - > breakCount - 1 ] > loopStart ) {
patchJump ( current - > breaks [ current - > breakCount - 1 ] ) ;
current - > breakCount - - ;
}
}
static void breakStatement ( ) {
if ( current - > breakSpace < current - > breakCount + 1 ) {
size_t old = current - > breakSpace ;
current - > breakSpace = GROW_CAPACITY ( old ) ;
current - > breaks = GROW_ARRAY ( int , current - > breaks , old , current - > breakSpace ) ;
}
for ( size_t i = current - > loopLocalCount ; i < current - > localCount ; + + i ) {
emitByte ( OP_POP ) ;
}
current - > breaks [ current - > breakCount + + ] = emitJump ( OP_JUMP ) ;
}
static void continueStatement ( ) {
if ( current - > continueSpace < current - > continueCount + 1 ) {
size_t old = current - > continueSpace ;
current - > continueSpace = GROW_CAPACITY ( old ) ;
current - > continues = GROW_ARRAY ( int , current - > continues , old , current - > continueSpace ) ;
}
for ( size_t i = current - > loopLocalCount ; i < current - > localCount ; + + i ) {
emitByte ( OP_POP ) ;
}
current - > continues [ current - > continueCount + + ] = emitJump ( OP_JUMP ) ;
}
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static void whileStatement ( ) {
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size_t blockWidth = ( parser . previous . type = = TOKEN_INDENTATION ) ? parser . previous . length : 0 ;
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advance ( ) ;
int loopStart = currentChunk ( ) - > count ;
expression ( ) ;
consume ( TOKEN_COLON , " Expect ':' after condition. " ) ;
int exitJump = emitJump ( OP_JUMP_IF_FALSE ) ;
emitByte ( OP_POP ) ;
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int oldLocalCount = current - > loopLocalCount ;
current - > loopLocalCount = current - > localCount ;
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beginScope ( ) ;
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block ( blockWidth , " while " ) ;
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endScope ( ) ;
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current - > loopLocalCount = oldLocalCount ;
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emitLoop ( loopStart ) ;
patchJump ( exitJump ) ;
emitByte ( OP_POP ) ;
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patchBreaks ( loopStart ) ;
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}
static void forStatement ( ) {
/* I'm not sure if I want this to be more like Python or C/Lox/etc. */
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size_t blockWidth = ( parser . previous . type = = TOKEN_INDENTATION ) ? parser . previous . length : 0 ;
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advance ( ) ;
/* For now this is going to be kinda broken */
beginScope ( ) ;
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ssize_t loopInd = current - > localCount ;
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ssize_t varCount = 0 ;
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int matchedEquals = 0 ;
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do {
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ssize_t ind = parseVariable ( " Expected name for loop iterator. " ) ;
if ( match ( TOKEN_EQUAL ) ) {
matchedEquals = 1 ;
expression ( ) ;
} else {
emitByte ( OP_NONE ) ;
}
defineVariable ( ind ) ;
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varCount + + ;
} while ( match ( TOKEN_COMMA ) ) ;
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int loopStart ;
int exitJump ;
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if ( ! matchedEquals & & match ( TOKEN_IN ) ) {
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/* ITERABLE.__iter__() */
beginScope ( ) ;
expression ( ) ;
endScope ( ) ;
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KrkToken _it = syntheticToken ( " __loop_iter " ) ;
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size_t indLoopIter = current - > localCount ;
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addLocal ( _it ) ;
defineVariable ( indLoopIter ) ;
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KrkToken _iter = syntheticToken ( " __iter__ " ) ;
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ssize_t ind = identifierConstant ( & _iter ) ;
EMIT_CONSTANT_OP ( OP_GET_PROPERTY , ind ) ;
emitBytes ( OP_CALL , 0 ) ;
/* assign */
EMIT_CONSTANT_OP ( OP_SET_LOCAL , indLoopIter ) ;
/* LOOP STARTS HERE */
loopStart = currentChunk ( ) - > count ;
/* Call the iterator */
EMIT_CONSTANT_OP ( OP_GET_LOCAL , indLoopIter ) ;
emitBytes ( OP_CALL , 0 ) ;
/* Assign the result to our loop index */
EMIT_CONSTANT_OP ( OP_SET_LOCAL , loopInd ) ;
/* Get the loop iterator again */
EMIT_CONSTANT_OP ( OP_GET_LOCAL , indLoopIter ) ;
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emitByte ( OP_EQUAL ) ;
exitJump = emitJump ( OP_JUMP_IF_TRUE ) ;
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emitByte ( OP_POP ) ;
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if ( varCount > 1 ) {
EMIT_CONSTANT_OP ( OP_GET_LOCAL , loopInd ) ;
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EMIT_CONSTANT_OP ( OP_UNPACK , varCount ) ;
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for ( ssize_t i = loopInd + varCount - 1 ; i > = loopInd ; i - - ) {
EMIT_CONSTANT_OP ( OP_SET_LOCAL , i ) ;
emitByte ( OP_POP ) ;
}
}
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} else {
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consume ( TOKEN_SEMICOLON , " expect ; after var declaration in for loop " ) ;
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loopStart = currentChunk ( ) - > count ;
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beginScope ( ) ;
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do {
expression ( ) ; /* condition */
} while ( match ( TOKEN_COMMA ) ) ;
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endScope ( ) ;
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exitJump = emitJump ( OP_JUMP_IF_FALSE ) ;
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emitByte ( OP_POP ) ;
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if ( check ( TOKEN_SEMICOLON ) ) {
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advance ( ) ;
int bodyJump = emitJump ( OP_JUMP ) ;
int incrementStart = currentChunk ( ) - > count ;
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beginScope ( ) ;
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do {
expression ( ) ;
} while ( match ( TOKEN_COMMA ) ) ;
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endScope ( ) ;
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emitByte ( OP_POP ) ;
emitLoop ( loopStart ) ;
loopStart = incrementStart ;
patchJump ( bodyJump ) ;
}
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}
consume ( TOKEN_COLON , " expect : " ) ;
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int oldLocalCount = current - > loopLocalCount ;
current - > loopLocalCount = current - > localCount ;
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beginScope ( ) ;
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block ( blockWidth , " for " ) ;
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endScope ( ) ;
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current - > loopLocalCount = oldLocalCount ;
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emitLoop ( loopStart ) ;
patchJump ( exitJump ) ;
emitByte ( OP_POP ) ;
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patchBreaks ( loopStart ) ;
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endScope ( ) ;
}
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static void returnStatement ( ) {
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if ( check ( TOKEN_EOL ) | | check ( TOKEN_EOF ) ) {
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emitReturn ( ) ;
} else {
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if ( current - > type = = TYPE_INIT ) {
error ( " Can not return values from __init__ " ) ;
}
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expression ( ) ;
emitByte ( OP_RETURN ) ;
}
}
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static void tryStatement ( ) {
size_t blockWidth = ( parser . previous . type = = TOKEN_INDENTATION ) ? parser . previous . length : 0 ;
advance ( ) ;
consume ( TOKEN_COLON , " Expect ':' after try. " ) ;
/* Make sure we are in a local scope so this ends up on the stack */
beginScope ( ) ;
int tryJump = emitJump ( OP_PUSH_TRY ) ;
addLocal ( syntheticToken ( " exception " ) ) ;
defineVariable ( 0 ) ;
beginScope ( ) ;
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block ( blockWidth , " try " ) ;
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endScope ( ) ;
int successJump = emitJump ( OP_JUMP ) ;
patchJump ( tryJump ) ;
if ( blockWidth = = 0 | | ( check ( TOKEN_INDENTATION ) & & ( parser . current . length = = blockWidth ) ) ) {
KrkToken previous ;
if ( blockWidth ) {
previous = parser . previous ;
advance ( ) ;
}
if ( match ( TOKEN_EXCEPT ) ) {
consume ( TOKEN_COLON , " Expect ':' after except. " ) ;
beginScope ( ) ;
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block ( blockWidth , " except " ) ;
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endScope ( ) ;
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} else if ( ! check ( TOKEN_EOL ) & & ! check ( TOKEN_EOF ) ) {
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krk_ungetToken ( parser . current ) ;
parser . current = parser . previous ;
if ( blockWidth ) {
parser . previous = previous ;
}
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} else {
advance ( ) ; /* Ignore this blank indentation line */
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}
}
patchJump ( successJump ) ;
endScope ( ) ; /* will pop the exception handler */
}
static void raiseStatement ( ) {
expression ( ) ;
emitByte ( OP_RAISE ) ;
}
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static void importStatement ( ) {
consume ( TOKEN_IDENTIFIER , " Expected module name " ) ;
size_t ind = identifierConstant ( & parser . previous ) ;
EMIT_CONSTANT_OP ( OP_IMPORT , ind ) ;
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if ( match ( TOKEN_AS ) ) {
consume ( TOKEN_IDENTIFIER , " Expected identifier after `as` " ) ;
ind = identifierConstant ( & parser . previous ) ;
}
declareVariable ( ) ;
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defineVariable ( ind ) ;
}
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static void fromImportStatement ( ) {
consume ( TOKEN_IDENTIFIER , " Expected module name after 'from' " ) ;
size_t ind = identifierConstant ( & parser . previous ) ;
EMIT_CONSTANT_OP ( OP_IMPORT , ind ) ;
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consume ( TOKEN_IMPORT , " Expected 'import' after module name " ) ;
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do {
consume ( TOKEN_IDENTIFIER , " Expected member name " ) ;
size_t member = identifierConstant ( & parser . previous ) ;
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emitBytes ( OP_DUP , 0 ) ; /* Duplicate the package object so we can GET_PROPERTY on it? */
EMIT_CONSTANT_OP ( OP_GET_PROPERTY , member ) ;
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if ( match ( TOKEN_AS ) ) {
consume ( TOKEN_IDENTIFIER , " Expected identifier after `as` " ) ;
member = identifierConstant ( & parser . previous ) ;
}
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if ( current - > scopeDepth ) {
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/* Swaps the original module and the new possible local so it can be in the right place */
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emitByte ( OP_SWAP ) ;
}
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declareVariable ( ) ;
defineVariable ( member ) ;
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} while ( match ( TOKEN_COMMA ) ) ;
emitByte ( OP_POP ) ; /* Pop the remaining copy of the module. */
}
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static void statement ( ) {
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if ( match ( TOKEN_EOL ) | | match ( TOKEN_EOF ) ) {
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return ; /* Meaningless blank line */
}
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if ( check ( TOKEN_IF ) ) {
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ifStatement ( ) ;
} else if ( check ( TOKEN_WHILE ) ) {
whileStatement ( ) ;
} else if ( check ( TOKEN_FOR ) ) {
forStatement ( ) ;
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} else if ( check ( TOKEN_TRY ) ) {
tryStatement ( ) ;
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} else if ( check ( TOKEN_WITH ) ) {
withStatement ( ) ;
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} else if ( match ( TOKEN_DEL ) ) {
do {
inDel = 1 ;
expression ( ) ;
} while ( match ( TOKEN_COMMA ) ) ;
inDel = 0 ;
/* del already eats linefeeds */
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} else {
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if ( match ( TOKEN_RAISE ) ) {
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raiseStatement ( ) ;
} else if ( match ( TOKEN_RETURN ) ) {
returnStatement ( ) ;
} else if ( match ( TOKEN_IMPORT ) ) {
importStatement ( ) ;
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} else if ( match ( TOKEN_FROM ) ) {
fromImportStatement ( ) ;
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} else if ( match ( TOKEN_BREAK ) ) {
breakStatement ( ) ;
} else if ( match ( TOKEN_CONTINUE ) ) {
continueStatement ( ) ;
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} else {
expressionStatement ( ) ;
}
if ( ! match ( TOKEN_EOL ) & & ! match ( TOKEN_EOF ) ) {
errorAtCurrent ( " Unexpected token after statement. " ) ;
}
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}
}
static void grouping ( int canAssign ) {
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startEatingWhitespace ( ) ;
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if ( check ( TOKEN_RIGHT_PAREN ) ) {
emitBytes ( OP_TUPLE , 0 ) ;
} else {
expression ( ) ;
if ( match ( TOKEN_COMMA ) ) {
size_t argCount = 1 ;
if ( ! check ( TOKEN_RIGHT_PAREN ) ) {
do {
expression ( ) ;
argCount + + ;
} while ( match ( TOKEN_COMMA ) & & ! check ( TOKEN_RIGHT_PAREN ) ) ;
}
EMIT_CONSTANT_OP ( OP_TUPLE , argCount ) ;
}
}
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stopEatingWhitespace ( ) ;
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consume ( TOKEN_RIGHT_PAREN , " Expect ')' after expression. " ) ;
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}
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static void unary ( int canAssign ) {
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KrkTokenType operatorType = parser . previous . type ;
parsePrecedence ( PREC_UNARY ) ;
switch ( operatorType ) {
case TOKEN_MINUS : emitByte ( OP_NEGATE ) ; break ;
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case TOKEN_TILDE : emitByte ( OP_BITNEGATE ) ; break ;
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/* These are equivalent */
case TOKEN_BANG :
case TOKEN_NOT :
emitByte ( OP_NOT ) ;
break ;
default : return ;
}
}
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static int isHex ( int c ) {
return ( c > = ' 0 ' & & c < = ' 9 ' ) | | ( c > = ' a ' & & c < = ' f ' ) | | ( c > = ' A ' & & c < = ' F ' ) ;
}
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static void string ( int type ) {
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/* We'll just build with a flexible array like everything else. */
size_t stringCapacity = 0 ;
size_t stringLength = 0 ;
char * stringBytes = 0 ;
# define PUSH_CHAR(c) do { if (stringCapacity < stringLength + 1) { \
size_t old = stringCapacity ; stringCapacity = GROW_CAPACITY ( old ) ; \
stringBytes = GROW_ARRAY ( char , stringBytes , old , stringCapacity ) ; \
} stringBytes [ stringLength + + ] = c ; } while ( 0 )
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int isBytes = ( parser . previous . type = = TOKEN_PREFIX_B ) ;
if ( isBytes & & ! ( match ( TOKEN_STRING ) | | match ( TOKEN_BIG_STRING ) ) ) {
error ( " Expected string after 'b' prefix? " ) ;
}
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/* This should capture everything but the quotes. */
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do {
int type = parser . previous . type = = TOKEN_BIG_STRING ? 3 : 1 ;
const char * c = parser . previous . start + type ;
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const char * end = parser . previous . start + parser . previous . length - type ;
while ( c < end ) {
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if ( * c = = ' \\ ' ) {
switch ( c [ 1 ] ) {
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case ' \\ ' : PUSH_CHAR ( ' \\ ' ) ; break ;
case ' \' ' : PUSH_CHAR ( ' \' ' ) ; break ;
case ' \" ' : PUSH_CHAR ( ' \" ' ) ; break ;
case ' a ' : PUSH_CHAR ( ' \a ' ) ; break ;
case ' b ' : PUSH_CHAR ( ' \b ' ) ; break ;
case ' f ' : PUSH_CHAR ( ' \f ' ) ; break ;
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case ' n ' : PUSH_CHAR ( ' \n ' ) ; break ;
case ' r ' : PUSH_CHAR ( ' \r ' ) ; break ;
case ' t ' : PUSH_CHAR ( ' \t ' ) ; break ;
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case ' v ' : PUSH_CHAR ( ' \v ' ) ; break ;
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case ' [ ' : PUSH_CHAR ( ' \033 ' ) ; break ;
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case ' x ' : {
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if ( c + 2 = = end | | c + 3 = = end | | ! isHex ( c [ 2 ] ) | | ! isHex ( c [ 3 ] ) ) {
error ( " invalid \\ x escape " ) ;
return ;
}
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unsigned long value = strtoul ( ( char [ ] ) { c [ 2 ] , c [ 3 ] , ' \0 ' } , NULL , 16 ) ;
if ( isBytes ) {
PUSH_CHAR ( value ) ;
} else if ( value > 127 ) {
PUSH_CHAR ( ( 0xC0 | ( value > > 6 ) ) ) ;
PUSH_CHAR ( ( 0x80 | ( value & 0x3F ) ) ) ;
} else {
PUSH_CHAR ( value ) ;
}
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c + = 2 ;
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} break ;
case ' u ' : {
if ( isBytes ) {
PUSH_CHAR ( c [ 0 ] ) ;
PUSH_CHAR ( c [ 1 ] ) ;
} else {
if ( c + 2 = = end | | c + 3 = = end | | ! isHex ( c [ 2 ] ) | | ! isHex ( c [ 3 ] ) | |
c + 4 = = end | | c + 5 = = end | | ! isHex ( c [ 4 ] ) | | ! isHex ( c [ 5 ] ) ) {
error ( " truncated \\ u escape " ) ;
return ;
}
unsigned long value = strtoul ( ( char [ ] ) { c [ 2 ] , c [ 3 ] , c [ 4 ] , c [ 5 ] , ' \0 ' } , NULL , 16 ) ;
if ( value > 0xFFFF ) {
PUSH_CHAR ( ( 0xF0 | ( value > > 18 ) ) ) ;
PUSH_CHAR ( ( 0x80 | ( ( value > > 12 ) & 0x3F ) ) ) ;
PUSH_CHAR ( ( 0x80 | ( ( value > > 6 ) & 0x3F ) ) ) ;
PUSH_CHAR ( ( 0x80 | ( ( value ) & 0x3F ) ) ) ;
} else if ( value > 0x7FF ) {
PUSH_CHAR ( ( 0xE0 | ( value > > 12 ) ) ) ;
PUSH_CHAR ( ( 0x80 | ( ( value > > 6 ) & 0x3F ) ) ) ;
PUSH_CHAR ( ( 0x80 | ( value & 0x3F ) ) ) ;
} else if ( value > 0x7F ) {
PUSH_CHAR ( ( 0xC0 | ( value > > 6 ) ) ) ;
PUSH_CHAR ( ( 0x80 | ( value & 0x3F ) ) ) ;
} else {
PUSH_CHAR ( value ) ;
}
c + = 4 ;
}
} break ;
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case ' \n ' : break ;
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default :
/* TODO octal */
PUSH_CHAR ( c [ 0 ] ) ;
PUSH_CHAR ( c [ 1 ] ) ;
break ;
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}
c + = 2 ;
} else {
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if ( * ( unsigned char * ) c > 127 & & isBytes ) {
FREE_ARRAY ( char , stringBytes , stringCapacity ) ;
error ( " bytes literal can only contain ASCII characters " ) ;
return ;
}
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PUSH_CHAR ( * c ) ;
c + + ;
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}
}
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} while ( ( ! isBytes | | match ( TOKEN_PREFIX_B ) ) & & ( match ( TOKEN_STRING ) | | match ( TOKEN_BIG_STRING ) ) ) ;
if ( isBytes & & ( match ( TOKEN_STRING ) | | match ( TOKEN_BIG_STRING ) ) ) {
FREE_ARRAY ( char , stringBytes , stringCapacity ) ;
error ( " can not mix bytes and string literals " ) ;
return ;
}
if ( isBytes ) {
KrkBytes * bytes = krk_newBytes ( 0 , NULL ) ;
bytes - > bytes = ( uint8_t * ) stringBytes ;
bytes - > length = stringLength ;
krk_bytesUpdateHash ( bytes ) ;
emitConstant ( OBJECT_VAL ( bytes ) ) ;
return ;
}
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emitConstant ( OBJECT_VAL ( krk_copyString ( stringBytes , stringLength ) ) ) ;
FREE_ARRAY ( char , stringBytes , stringCapacity ) ;
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# undef PUSH_CHAR
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}
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static size_t addUpvalue ( Compiler * compiler , ssize_t index , int isLocal ) {
size_t upvalueCount = compiler - > function - > upvalueCount ;
for ( size_t i = 0 ; i < upvalueCount ; + + i ) {
Upvalue * upvalue = & compiler - > upvalues [ i ] ;
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if ( ( ssize_t ) upvalue - > index = = index & & upvalue - > isLocal = = isLocal ) {
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return i ;
}
}
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if ( upvalueCount + 1 > compiler - > upvaluesSpace ) {
size_t old = compiler - > upvaluesSpace ;
compiler - > upvaluesSpace = GROW_CAPACITY ( old ) ;
compiler - > upvalues = GROW_ARRAY ( Upvalue , compiler - > upvalues , old , compiler - > upvaluesSpace ) ;
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}
compiler - > upvalues [ upvalueCount ] . isLocal = isLocal ;
compiler - > upvalues [ upvalueCount ] . index = index ;
return compiler - > function - > upvalueCount + + ;
}
static ssize_t resolveUpvalue ( Compiler * compiler , KrkToken * name ) {
if ( compiler - > enclosing = = NULL ) return - 1 ;
ssize_t local = resolveLocal ( compiler - > enclosing , name ) ;
if ( local ! = - 1 ) {
compiler - > enclosing - > locals [ local ] . isCaptured = 1 ;
return addUpvalue ( compiler , local , 1 ) ;
}
ssize_t upvalue = resolveUpvalue ( compiler - > enclosing , name ) ;
if ( upvalue ! = - 1 ) {
return addUpvalue ( compiler , upvalue , 0 ) ;
}
return - 1 ;
}
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# define OP_NONE_LONG -1
# define DO_VARIABLE(opset,opget,opdel) do { \
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if ( canAssign & & match ( TOKEN_EQUAL ) ) { \
expression ( ) ; \
EMIT_CONSTANT_OP ( opset , arg ) ; \
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} else if ( canAssign & & matchAssignment ( ) ) { \
EMIT_CONSTANT_OP ( opget , arg ) ; \
assignmentValue ( ) ; \
EMIT_CONSTANT_OP ( opset , arg ) ; \
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} else if ( inDel & & matchEndOfDel ( ) ) { \
if ( opdel = = OP_NONE | | ! canAssign | | inDel ! = 1 ) { error ( " Invalid del target " ) ; } else { \
EMIT_CONSTANT_OP ( opdel , arg ) ; inDel = 2 ; } \
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} else { \
EMIT_CONSTANT_OP ( opget , arg ) ; \
} } while ( 0 )
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static void namedVariable ( KrkToken name , int canAssign ) {
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ssize_t arg = resolveLocal ( current , & name ) ;
if ( arg ! = - 1 ) {
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DO_VARIABLE ( OP_SET_LOCAL , OP_GET_LOCAL , OP_NONE ) ;
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} else if ( ( arg = resolveUpvalue ( current , & name ) ) ! = - 1 ) {
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DO_VARIABLE ( OP_SET_UPVALUE , OP_GET_UPVALUE , OP_NONE ) ;
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} else {
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arg = identifierConstant ( & name ) ;
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DO_VARIABLE ( OP_SET_GLOBAL , OP_GET_GLOBAL , OP_DEL_GLOBAL ) ;
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}
}
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# undef DO_VARIABLE
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static void variable ( int canAssign ) {
namedVariable ( parser . previous , canAssign ) ;
}
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static void self ( int canAssign ) {
if ( currentClass = = NULL ) {
error ( " Invalid reference to `self` outside of a class method. " ) ;
return ;
}
variable ( 0 ) ;
}
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static void super_ ( int canAssign ) {
if ( currentClass = = NULL ) {
error ( " Invalid reference to `super` outside of a class. " ) ;
}
consume ( TOKEN_LEFT_PAREN , " Expected `super` to be called. " ) ;
consume ( TOKEN_RIGHT_PAREN , " `super` can not take arguments. " ) ;
consume ( TOKEN_DOT , " Expected a field of `super()` to be referenced. " ) ;
consume ( TOKEN_IDENTIFIER , " Expected a field name. " ) ;
size_t ind = identifierConstant ( & parser . previous ) ;
namedVariable ( syntheticToken ( " self " ) , 0 ) ;
namedVariable ( syntheticToken ( " super " ) , 0 ) ;
EMIT_CONSTANT_OP ( OP_GET_SUPER , ind ) ;
}
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static void list ( int canAssign ) {
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size_t chunkBefore = currentChunk ( ) - > count ;
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startEatingWhitespace ( ) ;
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KrkToken listOf = syntheticToken ( " listOf " ) ;
size_t ind = identifierConstant ( & listOf ) ;
EMIT_CONSTANT_OP ( OP_GET_GLOBAL , ind ) ;
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if ( ! check ( TOKEN_RIGHT_SQUARE ) ) {
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KrkScanner scannerBefore = krk_tellScanner ( ) ;
Parser parserBefore = parser ;
expression ( ) ;
/* This is a bit complicated and the Pratt parser does not handle it
* well ; if we read an expression and then saw a ` for ` , we need to back
* up and start over , as we ' ll need to define a variable _after_ it
* gets used in this expression ; so we record the parser state before
* reading the first expression of a list constant . If it _is_ a real
* list constant , we ' ll see a comma next and we can begin the normal
* loop of counting arguments . */
if ( match ( TOKEN_FOR ) ) {
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/* Roll back the earlier compiler */
currentChunk ( ) - > count = chunkBefore ;
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/* Compile list comprehension as a function */
Compiler subcompiler ;
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initCompiler ( & subcompiler , TYPE_FUNCTION ) ;
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subcompiler . function - > chunk . filename = subcompiler . enclosing - > function - > chunk . filename ;
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beginScope ( ) ;
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/* for i=0, */
emitConstant ( INTEGER_VAL ( 0 ) ) ;
size_t indLoopCounter = current - > localCount ;
addLocal ( syntheticToken ( " __loop_count " ) ) ;
defineVariable ( indLoopCounter ) ;
/* x in... */
ssize_t loopInd = current - > localCount ;
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ssize_t varCount = 0 ;
do {
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defineVariable ( parseVariable ( " Expected name for iteration variable. " ) ) ;
emitByte ( OP_NONE ) ;
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defineVariable ( loopInd ) ;
varCount + + ;
} while ( match ( TOKEN_COMMA ) ) ;
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consume ( TOKEN_IN , " Only iterator loops (for ... in ...) are allowed in list comprehensions. " ) ;
beginScope ( ) ;
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parsePrecedence ( PREC_OR ) ; /* Otherwise we can get trapped on a ternary */
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endScope ( ) ;
/* iterable... */
size_t indLoopIter = current - > localCount ;
addLocal ( syntheticToken ( " __loop_iter " ) ) ;
defineVariable ( indLoopIter ) ;
/* Now try to call .__iter__ on the result to produce our iterator */
KrkToken _iter = syntheticToken ( " __iter__ " ) ;
ssize_t ind = identifierConstant ( & _iter ) ;
EMIT_CONSTANT_OP ( OP_GET_PROPERTY , ind ) ;
emitBytes ( OP_CALL , 0 ) ;
/* Assign the resulting iterator to indLoopIter */
EMIT_CONSTANT_OP ( OP_SET_LOCAL , indLoopIter ) ;
/* Mark the start of the loop */
int loopStart = currentChunk ( ) - > count ;
/* Call the iterator to get a value for our list */
EMIT_CONSTANT_OP ( OP_GET_LOCAL , indLoopIter ) ;
emitBytes ( OP_CALL , 0 ) ;
/* Assign the result to our loop index */
EMIT_CONSTANT_OP ( OP_SET_LOCAL , loopInd ) ;
/* Compare the iterator to the loop index;
* our iterators return themselves to say they are done ;
* this allows them to return None without any issue ,
* and there ' s no feasible way they can return themselves without
* our intended sentinel meaning , right ? Surely ? */
EMIT_CONSTANT_OP ( OP_GET_LOCAL , indLoopIter ) ;
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emitByte ( OP_EQUAL ) ;
int exitJump = emitJump ( OP_JUMP_IF_TRUE ) ;
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emitByte ( OP_POP ) ;
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/* Unpack tuple */
if ( varCount > 1 ) {
EMIT_CONSTANT_OP ( OP_GET_LOCAL , loopInd ) ;
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EMIT_CONSTANT_OP ( OP_UNPACK , varCount ) ;
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for ( ssize_t i = loopInd + varCount - 1 ; i > = loopInd ; i - - ) {
EMIT_CONSTANT_OP ( OP_SET_LOCAL , i ) ;
emitByte ( OP_POP ) ;
}
}
if ( match ( TOKEN_IF ) ) {
parsePrecedence ( PREC_OR ) ;
int acceptJump = emitJump ( OP_JUMP_IF_TRUE ) ;
emitByte ( OP_POP ) ; /* Pop condition */
emitLoop ( loopStart ) ;
patchJump ( acceptJump ) ;
emitByte ( OP_POP ) ; /* Pop condition */
}
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/* Now we can rewind the scanner to have it parse the original
* expression that uses our iterated values ! */
KrkScanner scannerAfter = krk_tellScanner ( ) ;
Parser parserAfter = parser ;
krk_rewindScanner ( scannerBefore ) ;
parser = parserBefore ;
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beginScope ( ) ;
expression ( ) ;
endScope ( ) ;
/* Then we can put the parser back to where it was at the end of
* the iterator expression and continue . */
krk_rewindScanner ( scannerAfter ) ;
parser = parserAfter ;
/* We keep a counter so we can keep track of how many arguments
* are on the stack , which we need in order to find the listOf ( )
* method above ; having run the expression and generated an
* item which is now on the stack , increment the counter */
EMIT_CONSTANT_OP ( OP_INC , indLoopCounter ) ;
/* ... and loop back to the iterator call. */
emitLoop ( loopStart ) ;
/* Finally, at this point, we've seen the iterator produce itself
* and we ' re done receiving objects , so mark this instruction
* offset as the exit target for the OP_JUMP_IF_FALSE above */
patchJump ( exitJump ) ;
/* Parse the ] that indicates the end of the list comprehension */
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stopEatingWhitespace ( ) ;
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consume ( TOKEN_RIGHT_SQUARE , " Expected ] at end of list expression. " ) ;
/* Pop the last loop expression result which was already stored */
emitByte ( OP_POP ) ;
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/* Pull in listOf from the global namespace */
KrkToken listOf = syntheticToken ( " listOf " ) ;
size_t indList = identifierConstant ( & listOf ) ;
EMIT_CONSTANT_OP ( OP_GET_GLOBAL , indList ) ;
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/* And move it into where we were storing the loop iterator */
EMIT_CONSTANT_OP ( OP_SET_LOCAL , indLoopIter ) ;
/* (And pop it from the top of the stack) */
emitByte ( OP_POP ) ;
/* Then get the counter for our arg count */
EMIT_CONSTANT_OP ( OP_GET_LOCAL , indLoopCounter ) ;
/* And then call the native method which should be ^ that many items down */
emitByte ( OP_CALL_STACK ) ;
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/* And return the result back to the original scope */
emitByte ( OP_RETURN ) ;
/* Now because we made a function we need to fill out its upvalues
* and write the closure call for it . */
KrkFunction * subfunction = endCompiler ( ) ;
size_t indFunc = krk_addConstant ( currentChunk ( ) , OBJECT_VAL ( subfunction ) ) ;
EMIT_CONSTANT_OP ( OP_CLOSURE , indFunc ) ;
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doUpvalues ( & subcompiler , subfunction ) ;
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freeCompiler ( & subcompiler ) ;
/* And finally we can call the subfunction and get the result. */
emitBytes ( OP_CALL , 0 ) ;
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} else {
size_t argCount = 1 ;
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while ( match ( TOKEN_COMMA ) & & ! check ( TOKEN_RIGHT_SQUARE ) ) {
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expression ( ) ;
argCount + + ;
}
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stopEatingWhitespace ( ) ;
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consume ( TOKEN_RIGHT_SQUARE , " Expected ] at end of list expression. " ) ;
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EMIT_CONSTANT_OP ( OP_CALL , argCount ) ;
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}
} else {
/* Empty list expression */
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stopEatingWhitespace ( ) ;
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advance ( ) ;
emitBytes ( OP_CALL , 0 ) ;
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}
}
static void dict ( int canAssign ) {
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startEatingWhitespace ( ) ;
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KrkToken dictOf = syntheticToken ( " dictOf " ) ;
size_t ind = identifierConstant ( & dictOf ) ;
EMIT_CONSTANT_OP ( OP_GET_GLOBAL , ind ) ;
size_t argCount = 0 ;
if ( ! check ( TOKEN_RIGHT_BRACE ) ) {
do {
expression ( ) ;
consume ( TOKEN_COLON , " Expect colon after dict key. " ) ;
expression ( ) ;
argCount + = 2 ;
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} while ( match ( TOKEN_COMMA ) & & ! check ( TOKEN_RIGHT_BRACE ) ) ;
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}
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stopEatingWhitespace ( ) ;
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consume ( TOKEN_RIGHT_BRACE , " Expected } at end of dict expression. " ) ;
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EMIT_CONSTANT_OP ( OP_CALL , argCount ) ;
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}
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# define RULE(token, a, b, c) [token] = {# token, a, b, c}
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ParseRule krk_parseRules [ ] = {
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RULE ( TOKEN_LEFT_PAREN , grouping , call , PREC_CALL ) ,
RULE ( TOKEN_RIGHT_PAREN , NULL , NULL , PREC_NONE ) ,
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RULE ( TOKEN_LEFT_BRACE , dict , NULL , PREC_NONE ) ,
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RULE ( TOKEN_RIGHT_BRACE , NULL , NULL , PREC_NONE ) ,
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RULE ( TOKEN_LEFT_SQUARE , list , get_ , PREC_CALL ) ,
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RULE ( TOKEN_RIGHT_SQUARE , NULL , NULL , PREC_NONE ) ,
RULE ( TOKEN_COLON , NULL , NULL , PREC_NONE ) ,
RULE ( TOKEN_COMMA , NULL , NULL , PREC_NONE ) ,
RULE ( TOKEN_DOT , NULL , dot , PREC_CALL ) ,
RULE ( TOKEN_MINUS , unary , binary , PREC_TERM ) ,
RULE ( TOKEN_PLUS , NULL , binary , PREC_TERM ) ,
RULE ( TOKEN_SEMICOLON , NULL , NULL , PREC_NONE ) ,
RULE ( TOKEN_SOLIDUS , NULL , binary , PREC_FACTOR ) ,
RULE ( TOKEN_ASTERISK , NULL , binary , PREC_FACTOR ) ,
RULE ( TOKEN_MODULO , NULL , binary , PREC_FACTOR ) ,
RULE ( TOKEN_BANG , unary , NULL , PREC_NONE ) ,
RULE ( TOKEN_BANG_EQUAL , NULL , binary , PREC_EQUALITY ) ,
RULE ( TOKEN_EQUAL , NULL , NULL , PREC_NONE ) ,
RULE ( TOKEN_EQUAL_EQUAL , NULL , binary , PREC_EQUALITY ) ,
RULE ( TOKEN_GREATER , NULL , binary , PREC_COMPARISON ) ,
RULE ( TOKEN_GREATER_EQUAL , NULL , binary , PREC_COMPARISON ) ,
RULE ( TOKEN_LESS , NULL , binary , PREC_COMPARISON ) ,
RULE ( TOKEN_LESS_EQUAL , NULL , binary , PREC_COMPARISON ) ,
RULE ( TOKEN_IDENTIFIER , variable , NULL , PREC_NONE ) ,
RULE ( TOKEN_STRING , string , NULL , PREC_NONE ) ,
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RULE ( TOKEN_BIG_STRING , string , NULL , PREC_NONE ) ,
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RULE ( TOKEN_PREFIX_B , string , NULL , PREC_NONE ) ,
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RULE ( TOKEN_NUMBER , number , NULL , PREC_NONE ) ,
RULE ( TOKEN_AND , NULL , and_ , PREC_AND ) ,
RULE ( TOKEN_CLASS , NULL , NULL , PREC_NONE ) ,
RULE ( TOKEN_ELSE , NULL , NULL , PREC_NONE ) ,
RULE ( TOKEN_FALSE , literal , NULL , PREC_NONE ) ,
RULE ( TOKEN_FOR , NULL , NULL , PREC_NONE ) ,
RULE ( TOKEN_DEF , NULL , NULL , PREC_NONE ) ,
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RULE ( TOKEN_DEL , NULL , NULL , PREC_NONE ) ,
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RULE ( TOKEN_IF , NULL , ternary , PREC_TERNARY ) ,
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RULE ( TOKEN_IN , NULL , in_ , PREC_COMPARISON ) ,
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RULE ( TOKEN_LET , NULL , NULL , PREC_NONE ) ,
RULE ( TOKEN_NONE , literal , NULL , PREC_NONE ) ,
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RULE ( TOKEN_NOT , unary , not_ , PREC_COMPARISON ) ,
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RULE ( TOKEN_IS , NULL , is_ , PREC_COMPARISON ) ,
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RULE ( TOKEN_OR , NULL , or_ , PREC_OR ) ,
RULE ( TOKEN_RETURN , NULL , NULL , PREC_NONE ) ,
RULE ( TOKEN_SELF , self , NULL , PREC_NONE ) ,
RULE ( TOKEN_SUPER , super_ , NULL , PREC_NONE ) ,
RULE ( TOKEN_TRUE , literal , NULL , PREC_NONE ) ,
RULE ( TOKEN_WHILE , NULL , NULL , PREC_NONE ) ,
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RULE ( TOKEN_BREAK , NULL , NULL , PREC_NONE ) ,
RULE ( TOKEN_CONTINUE , NULL , NULL , PREC_NONE ) ,
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RULE ( TOKEN_AT , NULL , NULL , PREC_NONE ) ,
RULE ( TOKEN_TILDE , unary , NULL , PREC_NONE ) ,
RULE ( TOKEN_PIPE , NULL , binary , PREC_BITOR ) ,
RULE ( TOKEN_CARET , NULL , binary , PREC_BITXOR ) ,
RULE ( TOKEN_AMPERSAND , NULL , binary , PREC_BITAND ) ,
RULE ( TOKEN_LEFT_SHIFT , NULL , binary , PREC_SHIFT ) ,
RULE ( TOKEN_RIGHT_SHIFT , NULL , binary , PREC_SHIFT ) ,
RULE ( TOKEN_PLUS_EQUAL , NULL , NULL , PREC_NONE ) ,
RULE ( TOKEN_MINUS_EQUAL , NULL , NULL , PREC_NONE ) ,
RULE ( TOKEN_PLUS_PLUS , NULL , NULL , PREC_NONE ) ,
RULE ( TOKEN_MINUS_MINUS , NULL , NULL , PREC_NONE ) ,
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RULE ( TOKEN_LAMBDA , lambda , NULL , PREC_NONE ) ,
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/* This is going to get interesting */
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RULE ( TOKEN_INDENTATION , NULL , NULL , PREC_NONE ) ,
RULE ( TOKEN_ERROR , NULL , NULL , PREC_NONE ) ,
RULE ( TOKEN_EOL , NULL , NULL , PREC_NONE ) ,
RULE ( TOKEN_EOF , NULL , NULL , PREC_NONE ) ,
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} ;
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static void actualTernary ( size_t count , KrkScanner oldScanner , Parser oldParser ) {
currentChunk ( ) - > count = count ;
parsePrecedence ( PREC_OR ) ;
int thenJump = emitJump ( OP_JUMP_IF_TRUE ) ;
emitByte ( OP_POP ) ; /* Pop the condition */
consume ( TOKEN_ELSE , " Expected 'else' after ternary condition " ) ;
parsePrecedence ( PREC_OR ) ;
KrkScanner outScanner = krk_tellScanner ( ) ;
Parser outParser = parser ;
int elseJump = emitJump ( OP_JUMP ) ;
patchJump ( thenJump ) ;
emitByte ( OP_POP ) ;
krk_rewindScanner ( oldScanner ) ;
parser = oldParser ;
parsePrecedence ( PREC_OR ) ;
patchJump ( elseJump ) ;
krk_rewindScanner ( outScanner ) ;
parser = outParser ;
}
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static void parsePrecedence ( Precedence precedence ) {
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size_t count = currentChunk ( ) - > count ;
KrkScanner oldScanner = krk_tellScanner ( ) ;
Parser oldParser = parser ;
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advance ( ) ;
ParseFn prefixRule = getRule ( parser . previous . type ) - > prefix ;
if ( prefixRule = = NULL ) {
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errorAtCurrent ( " Unexpected token. " ) ;
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return ;
}
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int canAssign = precedence < = PREC_ASSIGNMENT ;
prefixRule ( canAssign ) ;
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while ( precedence < = getRule ( parser . current . type ) - > precedence ) {
advance ( ) ;
ParseFn infixRule = getRule ( parser . previous . type ) - > infix ;
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if ( infixRule = = ternary ) {
actualTernary ( count , oldScanner , oldParser ) ;
} else {
infixRule ( canAssign ) ;
}
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}
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if ( canAssign & & matchAssignment ( ) ) {
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error ( " invalid assignment target " ) ;
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}
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if ( inDel = = 1 & & matchEndOfDel ( ) ) {
error ( " invalid del target " ) ;
}
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}
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static ssize_t identifierConstant ( KrkToken * name ) {
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return krk_addConstant ( currentChunk ( ) , OBJECT_VAL ( krk_copyString ( name - > start , name - > length ) ) ) ;
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}
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static ssize_t resolveLocal ( Compiler * compiler , KrkToken * name ) {
for ( ssize_t i = compiler - > localCount - 1 ; i > = 0 ; i - - ) {
Local * local = & compiler - > locals [ i ] ;
if ( identifiersEqual ( name , & local - > name ) ) {
if ( local - > depth = = - 1 ) {
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error ( " Can not initialize value recursively (are you shadowing something?) " ) ;
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}
return i ;
}
}
return - 1 ;
}
static void addLocal ( KrkToken name ) {
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if ( current - > localCount + 1 > current - > localsSpace ) {
size_t old = current - > localsSpace ;
current - > localsSpace = GROW_CAPACITY ( old ) ;
current - > locals = GROW_ARRAY ( Local , current - > locals , old , current - > localsSpace ) ;
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}
Local * local = & current - > locals [ current - > localCount + + ] ;
local - > name = name ;
local - > depth = - 1 ;
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local - > isCaptured = 0 ;
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if ( current - > function - > localNameCount + 1 > current - > localNameCapacity ) {
size_t old = current - > localNameCapacity ;
current - > localNameCapacity = GROW_CAPACITY ( old ) ;
current - > function - > localNames = GROW_ARRAY ( KrkLocalEntry , current - > function - > localNames , old , current - > localNameCapacity ) ;
}
current - > function - > localNames [ current - > function - > localNameCount ] . id = current - > localCount - 1 ;
current - > function - > localNames [ current - > function - > localNameCount ] . birthday = currentChunk ( ) - > count ;
current - > function - > localNames [ current - > function - > localNameCount ] . deathday = 0 ;
current - > function - > localNames [ current - > function - > localNameCount ] . name = krk_copyString ( name . start , name . length ) ;
current - > function - > localNameCount + + ;
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}
static void declareVariable ( ) {
if ( current - > scopeDepth = = 0 ) return ;
KrkToken * name = & parser . previous ;
/* Detect duplicate definition */
for ( ssize_t i = current - > localCount - 1 ; i > = 0 ; i - - ) {
Local * local = & current - > locals [ i ] ;
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if ( local - > depth ! = - 1 & & local - > depth < ( ssize_t ) current - > scopeDepth ) break ;
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if ( identifiersEqual ( name , & local - > name ) ) {
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error ( " Duplicate definition for local '%.*s' in this scope. " , ( int ) name - > literalWidth , name - > start ) ;
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}
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}
addLocal ( * name ) ;
}
static ssize_t parseVariable ( const char * errorMessage ) {
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consume ( TOKEN_IDENTIFIER , errorMessage ) ;
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declareVariable ( ) ;
if ( current - > scopeDepth > 0 ) return 0 ;
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return identifierConstant ( & parser . previous ) ;
}
static void defineVariable ( size_t global ) {
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if ( current - > scopeDepth > 0 ) {
markInitialized ( ) ;
return ;
}
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EMIT_CONSTANT_OP ( OP_DEFINE_GLOBAL , global ) ;
}
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static void call ( int canAssign ) {
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startEatingWhitespace ( ) ;
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size_t argCount = 0 , specialArgs = 0 , keywordArgs = 0 , seenKeywordUnpacking = 0 ;
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if ( ! check ( TOKEN_RIGHT_PAREN ) ) {
do {
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if ( match ( TOKEN_ASTERISK ) ) {
specialArgs + + ;
if ( match ( TOKEN_ASTERISK ) ) {
seenKeywordUnpacking = 1 ;
emitBytes ( OP_EXPAND_ARGS , 2 ) ; /* Outputs something special */
expression ( ) ; /* Expect dict */
continue ;
} else {
if ( seenKeywordUnpacking ) {
error ( " Iterable expansion follows keyword argument unpacking. " ) ;
return ;
}
emitBytes ( OP_EXPAND_ARGS , 1 ) ; /* outputs something special */
expression ( ) ;
continue ;
}
}
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if ( match ( TOKEN_IDENTIFIER ) ) {
KrkToken argName = parser . previous ;
if ( check ( TOKEN_EQUAL ) ) {
/* This is a keyword argument. */
advance ( ) ;
/* Output the name */
size_t ind = identifierConstant ( & argName ) ;
EMIT_CONSTANT_OP ( OP_CONSTANT , ind ) ;
expression ( ) ;
keywordArgs + + ;
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specialArgs + + ;
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continue ;
} else {
/*
* This is a regular argument that happened to start with an identifier ,
* roll it back so we can process it that way .
*/
krk_ungetToken ( parser . current ) ;
parser . current = argName ;
}
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} else if ( seenKeywordUnpacking ) {
error ( " positional argument follows keyword argument unpacking " ) ;
return ;
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} else if ( keywordArgs ) {
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error ( " Positional argument follows keyword argument " ) ;
return ;
} else if ( specialArgs ) {
emitBytes ( OP_EXPAND_ARGS , 0 ) ;
expression ( ) ;
specialArgs + + ;
continue ;
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}
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expression ( ) ;
argCount + + ;
} while ( match ( TOKEN_COMMA ) ) ;
}
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stopEatingWhitespace ( ) ;
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consume ( TOKEN_RIGHT_PAREN , " Expected ')' after arguments. " ) ;
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if ( specialArgs ) {
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/*
* Creates a sentinel at the top of the stack to tell the CALL instruction
* how many keyword arguments are at the top of the stack . This value
* triggers special handling in the CALL that processes the keyword arguments ,
* which is relatively slow , so only use keyword arguments if you have to !
*/
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EMIT_CONSTANT_OP ( OP_KWARGS , specialArgs ) ;
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/*
* We added two elements - name and value - for each keyword arg ,
* plus the sentinel object that will show up at the end after the
* OP_KWARGS instruction complets , so make sure we have the
* right depth into the stack when we execute CALL
*/
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argCount + = 1 /* for the sentinel */ + 2 * specialArgs ;
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}
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EMIT_CONSTANT_OP ( OP_CALL , argCount ) ;
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}
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static void and_ ( int canAssign ) {
int endJump = emitJump ( OP_JUMP_IF_FALSE ) ;
emitByte ( OP_POP ) ;
parsePrecedence ( PREC_AND ) ;
patchJump ( endJump ) ;
}
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static void ternary ( int canAssign ) {
error ( " This function should not run. " ) ;
}
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static void or_ ( int canAssign ) {
int endJump = emitJump ( OP_JUMP_IF_TRUE ) ;
emitByte ( OP_POP ) ;
parsePrecedence ( PREC_OR ) ;
patchJump ( endJump ) ;
}
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static ParseRule * getRule ( KrkTokenType type ) {
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return & krk_parseRules [ type ] ;
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}
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KrkFunction * krk_compile ( const char * src , int newScope , char * fileName ) {
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krk_initScanner ( src ) ;
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Compiler compiler ;
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initCompiler ( & compiler , TYPE_MODULE ) ;
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compiler . function - > chunk . filename = krk_copyString ( fileName , strlen ( fileName ) ) ;
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if ( newScope ) beginScope ( ) ;
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parser . hadError = 0 ;
parser . panicMode = 0 ;
advance ( ) ;
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if ( vm . module ) {
KrkValue doc ;
if ( ! krk_tableGet ( & vm . module - > fields , OBJECT_VAL ( krk_copyString ( " __doc__ " , 7 ) ) , & doc ) ) {
if ( match ( TOKEN_STRING ) | | match ( TOKEN_BIG_STRING ) ) {
string ( parser . previous . type = = TOKEN_BIG_STRING ) ;
krk_attachNamedObject ( & vm . module - > fields , " __doc__ " ,
( KrkObj * ) AS_STRING ( currentChunk ( ) - > constants . values [ currentChunk ( ) - > constants . count - 1 ] ) ) ;
consume ( TOKEN_EOL , " Garbage after docstring " ) ;
} else {
krk_attachNamedValue ( & vm . module - > fields , " __doc__ " , NONE_VAL ( ) ) ;
}
}
}
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while ( ! match ( TOKEN_EOF ) ) {
declaration ( ) ;
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if ( check ( TOKEN_EOL ) | | check ( TOKEN_INDENTATION ) | | check ( TOKEN_EOF ) ) {
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/* There's probably already and error... */
advance ( ) ;
}
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}
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KrkFunction * function = endCompiler ( ) ;
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freeCompiler ( & compiler ) ;
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return parser . hadError ? NULL : function ;
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}
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void krk_markCompilerRoots ( ) {
Compiler * compiler = current ;
while ( compiler ! = NULL ) {
krk_markObject ( ( KrkObj * ) compiler - > function ) ;
compiler = compiler - > enclosing ;
}
}