Documentation ¶
Overview ¶
Package parse does the parsing stage after lexing
Package parse does the parsing stage after lexing, using a top-down recursive-descent (TDRD) strategy, with a special reverse mode to deal with left-associative binary expressions which otherwise end up being right-associative for TDRD parsing. Higher-level rules provide scope to lower-level ones, with a special EOS end-of-statement scope recognized for
Index ¶
- Variables
- type Act
- type Actions
- type Acts
- type Ast
- type AstActs
- type MatchStack
- type MatchState
- type Matches
- type Parser
- type Rule
- func (pr *Rule) AsParseRule() *Rule
- func (pr *Rule) BaseIface() reflect.Type
- func (pr *Rule) Compile(ps *State) bool
- func (pr *Rule) CompileAll(ps *State) bool
- func (pr *Rule) CompileExcl(ps *State, rs []string, rist int) bool
- func (pr *Rule) CompileTokMap(ps *State) bool
- func (pr *Rule) DoAct(ps *State, act *Act, par *Rule, ourAst, parAst *Ast) bool
- func (pr *Rule) DoActs(ps *State, ri int, par *Rule, ourAst, parAst *Ast) bool
- func (pr *Rule) DoRules(ps *State, par *Rule, parAst *Ast, scope lex.Reg, mpos Matches, ...) bool
- func (pr *Rule) DoRulesRevBinExp(ps *State, par *Rule, parAst *Ast, scope lex.Reg, mpos Matches, ourAst *Ast, ...) bool
- func (pr *Rule) Find(find string) []*Rule
- func (pr *Rule) IsGroup() bool
- func (pr *Rule) Match(ps *State, parAst *Ast, scope lex.Reg, depth int, optMap lex.TokenMap) (bool, lex.Reg, Matches)
- func (pr *Rule) MatchExclude(ps *State, scope lex.Reg, ktpos lex.Reg, depth int, optMap lex.TokenMap) bool
- func (pr *Rule) MatchGroup(ps *State, parAst *Ast, scope lex.Reg, depth int, optMap lex.TokenMap) (bool, lex.Reg, Matches)
- func (pr *Rule) MatchMixed(ps *State, parAst *Ast, scope lex.Reg, depth int, optMap lex.TokenMap) (bool, Matches)
- func (pr *Rule) MatchNoToks(ps *State, parAst *Ast, scope lex.Reg, depth int, optMap lex.TokenMap) (bool, Matches)
- func (pr *Rule) MatchOnlyToks(ps *State, parAst *Ast, scope lex.Reg, depth int, optMap lex.TokenMap) (bool, Matches)
- func (pr *Rule) MatchToken(ps *State, rr *RuleEl, ri int, kt token.KeyToken, creg *lex.Reg, mpos Matches, ...) (bool, lex.Pos)
- func (pr *Rule) OptimizeOrder(ps *State)
- func (pr *Rule) Parse(ps *State, par *Rule, parAst *Ast, scope lex.Reg, optMap lex.TokenMap, ...) *Rule
- func (pr *Rule) ParseRules(ps *State, par *Rule, parAst *Ast, scope lex.Reg, optMap lex.TokenMap, ...) *Rule
- func (pr *Rule) Scope(ps *State, parAst *Ast, scope lex.Reg) (lex.Reg, bool)
- func (pr *Rule) SetRuleMap(ps *State)
- func (pr *Rule) StartParse(ps *State) *Rule
- func (pr *Rule) Validate(ps *State) bool
- func (pr *Rule) WriteGrammar(writer io.Writer, depth int)
- type RuleEl
- type RuleFlags
- type RuleList
- type ScopeRule
- type ScopeRuleSet
- type State
- func (ps *State) AddAst(parAst *Ast, rule string, reg lex.Reg) *Ast
- func (ps *State) AddMatch(pr *Rule, scope lex.Reg, regs Matches)
- func (ps *State) AddNonMatch(scope lex.Reg, pr *Rule)
- func (ps *State) AllocRules()
- func (ps *State) AtEof() bool
- func (ps *State) AtEofNext() bool
- func (ps *State) Error(pos lex.Pos, msg string, rule *Rule)
- func (ps *State) FindNameScoped(nm string) (*syms.Symbol, bool)
- func (ps *State) FindToken(tkey token.KeyToken, reg lex.Reg) (lex.Pos, bool)
- func (ps *State) FindTokenReverse(tkey token.KeyToken, reg lex.Reg) (lex.Pos, bool)
- func (ps *State) GotoEof()
- func (ps *State) Init(src *lex.File, ast *Ast)
- func (ps *State) IsMatch(pr *Rule, scope lex.Reg) (*MatchState, bool)
- func (ps *State) IsNonMatch(scope lex.Reg, pr *Rule) bool
- func (ps *State) MatchLex(lx *lex.Lex, tkey token.KeyToken, isCat, isSubCat bool, cp lex.Pos) bool
- func (ps *State) MatchToken(tkey token.KeyToken, pos lex.Pos) bool
- func (ps *State) NextSrcLine() string
- func (ps *State) ResetNonMatches()
- func (ps *State) RuleString(full bool) string
- type Steps
- type TraceOpts
- func (pt *TraceOpts) CheckRule(rule string) bool
- func (pt *TraceOpts) CopyOpts(ot *TraceOpts)
- func (pt *TraceOpts) FullOn()
- func (pt *TraceOpts) Init()
- func (pt *TraceOpts) Out(ps *State, pr *Rule, step Steps, pos lex.Pos, scope lex.Reg, ast *Ast, ...) bool
- func (pt *TraceOpts) PipeOut()
- func (pt *TraceOpts) StdOut()
Constants ¶
This section is empty.
Variables ¶
var AstProps = ki.Props{}
var DepthLimit = 10000
DepthLimit is the infinite recursion prevention cutoff
var GuiActive = false
Set GuiActive to true if the gui (piview) is active -- ensures that the Ast tree is updated when nodes are swapped in reverse mode, and maybe other things
var KiT_Actions = kit.Enums.AddEnum(ActionsN, kit.NotBitFlag, nil)
var KiT_Ast = kit.Types.AddType(&Ast{}, AstProps)
var KiT_AstActs = kit.Enums.AddEnum(AstActsN, kit.NotBitFlag, nil)
var KiT_Rule = kit.Types.AddType(&Rule{}, RuleProps)
var KiT_Steps = kit.Enums.AddEnum(StepsN, kit.NotBitFlag, nil)
var RuleMap map[string]*Rule
RuleMap is a map of all the rule names, for quick lookup
var RuleProps = ki.Props{}
Functions ¶
This section is empty.
Types ¶
type Act ¶ added in v0.5.5
type Act struct { RunIdx int `` /* 280-byte string literal not displayed */ Act Actions `desc:"what action to perform"` Path string `` /* 447-byte string literal not displayed */ Tok token.Tokens `desc:"for ChgToken, the new token type to assign to token at given path"` FmTok token.Tokens `desc:"for ChgToken, only change if token is this to start with (only if != None))"` }
Act is one action to perform, operating on the Ast output
type Actions ¶
type Actions int
Actions are parsing actions to perform
const ( // ChgToken changes the token to the Tok specified in the Act action ChgToken Actions = iota // AddSymbol means add name as a symbol, using current scoping and token type // or the token specified in the Act action if != None AddSymbol // PushScope means look for an existing symbol of given name // to push onto current scope -- adding a new one if not found -- // does not add new item to overall symbol list. This is useful // for e.g., definitions of methods on a type, where this is not // the definition of the type itself. PushScope // PushNewScope means add a new symbol to the list and also push // onto scope stack, using given token type or the token specified // in the Act action if != None PushNewScope // PopScope means remove the most recently-added scope item PopScope // PopScopeReg means remove the most recently-added scope item, and also // updates the source region for that item based on final SrcReg from // corresponding Ast node -- for "definitional" scope PopScopeReg // AddDetail adds src at given path as detail info for the last-added symbol // if there is already something there, a space is added for this new addition AddDetail // AddType Adds a type with the given name -- sets the Ast node for this rule // and actual type is resolved later in a second language-specific pass AddType // PushStack adds name to stack -- provides context-sensitivity option for // optimizing and ambiguity resolution PushStack // PopStack pops the stack PopStack ActionsN )
The parsing acts
func (*Actions) FromString ¶
func (Actions) MarshalJSON ¶
func (*Actions) UnmarshalJSON ¶
type Ast ¶
type Ast struct { ki.Node TokReg lex.Reg `desc:"region in source lexical tokens corresponding to this Ast node -- Ch = index in lex lines"` SrcReg lex.Reg `desc:"region in source file corresponding to this Ast node"` Src string `desc:"source code corresponding to this Ast node"` Syms syms.SymStack `desc:"stack of symbols created for this node"` }
Ast is a node in the abstract syntax tree generated by the parsing step the name of the node (from ki.Node) is the type of the element (e.g., expr, stmt, etc) These nodes are generated by the parse.Rule's by matching tokens
func (*Ast) ChildAst ¶ added in v0.5.5
ChildAst returns the Child at given index as an Ast. Will panic if index is invalid -- use Try if unsure.
func (*Ast) ChildAstTry ¶ added in v0.5.7
ChildAstTry returns the child at given index as an Ast -- error if not valid
func (*Ast) SetTokRegEnd ¶
SetTokRegEnd updates the ending token region to given position -- token regions are typically over-extended and get narrowed as tokens actually match
type AstActs ¶
type AstActs int
AstActs are actions to perform on the Ast nodes
const ( // NoAst means don't create an Ast node for this rule NoAst AstActs = iota // AddAst means create an Ast node for this rule, adding it to the current anchor Ast. // Any sub-rules within this rule are *not* added as children of this node -- see // SubAst and AnchorAst. This is good for token-only terminal nodes and list elements // that should be added to a list. AddAst // SubAst means create an Ast node and add all the elements of *this rule* as // children of this new node (including sub-rules), *except* for the very last rule // which is assumed to be a recursive rule -- that one goes back up to the parent node. // This is good for adding more complex elements with sub-rules to a recursive list, // without creating a new hierarchical depth level for every such element. SubAst // AnchorAst means create an Ast node and set it as the anchor that subsequent // sub-nodes are added into. This is for a new hierarchical depth level // where everything under this rule gets organized. AnchorAst // AnchorFirstAst means create an Ast node and set it as the anchor that subsequent // sub-nodes are added into, *only* if this is the first time that this rule has // matched within the current sequence (i.e., if the parent of this rule is the same // rule then don't add a new Ast node). This is good for starting a new list // of recursively-defined elements, without creating increasing depth levels. AnchorFirstAst AstActsN )
The Ast actions
func (*AstActs) FromString ¶
func (AstActs) MarshalJSON ¶
func (*AstActs) UnmarshalJSON ¶
type MatchStack ¶
type MatchStack []MatchState
MatchStack is the stack of rules that matched or ran for each token point
func (*MatchStack) Add ¶
func (rs *MatchStack) Add(pr *Rule, scope lex.Reg, regs Matches)
Add given rule to stack
func (*MatchStack) Find ¶
func (rs *MatchStack) Find(pr *Rule, scope lex.Reg) (*MatchState, bool)
Find looks for given rule and scope on the stack
type MatchState ¶
type MatchState struct { Rule *Rule `desc:"rule that either matched or ran here"` Scope lex.Reg `desc:"scope for match"` Regs Matches `desc:"regions of match for each sub-region"` }
MatchState holds state info for rules that matched, recorded at starting position of match
type Matches ¶
Matches encodes the regions of each match, Err for no match
type Parser ¶
type Parser interface { ki.Ki // Compile compiles string rules into their runnable elements Compile(ps *State) bool // Validate checks for any errors in the rules and issues warnings, // returns true if valid (no err) and false if invalid (errs) Validate(ps *State) bool // Parse tries to apply rule to given input state, returns rule that matched or nil // par is the parent rule that we're being called from // ast is the current ast node that we add to Parse(ps *State, par *Rule, ast *Ast, scope lex.Reg, optMap lex.TokenMap, depth int) *Rule // AsParseRule returns object as a parse.Rule AsParseRule() *Rule }
Parser is the interface type for parsers -- likely not necessary except is essential for defining the BaseIface for gui in making new nodes
type Rule ¶
type Rule struct { ki.Node Off bool `desc:"disable this rule -- useful for testing and exploration"` Desc string `desc:"description / comments about this rule"` Rule string `` /* 1090-byte string literal not displayed */ StackMatch string `desc:"if present, this rule only fires if stack has this on it"` Ast AstActs `desc:"what action should be take for this node when it matches"` Acts Acts `desc:"actions to perform based on parsed Ast tree data, when this rule is done executing"` OptTokMap bool `` /* 253-byte string literal not displayed */ FirstTokMap bool `` /* 258-byte string literal not displayed */ Rules RuleList `json:"-" xml:"-" desc:"rule elements compiled from Rule string"` Order []int `inactive:"+" json:"-" xml:"-" desc:"strategic matching order for matching the rules"` FiTokMap map[string]*Rule `inactive:"+" json:"-" xml:"-" desc:"map from first tokens / keywords to rules for FirstTokMap case"` FiTokElseIdx int `inactive:"+" json:"-" xml:"-" desc:"for FirstTokMap, the start of the else cases not covered by the map"` ExclKeyIdx int `` /* 157-byte string literal not displayed */ ExclFwd RuleList `inactive:"+" json:"-" xml:"-" desc:"exclusionary forward-search rule elements compiled from Rule string"` ExclRev RuleList `inactive:"+" json:"-" xml:"-" desc:"exclusionary reverse-search rule elements compiled from Rule string"` }
The first step is matching which searches in order for matches within the children of parent nodes, and for explicit rule nodes, it looks first through all the explicit tokens in the rule. If there are no explicit tokens then matching defers to ONLY the first node listed by default -- you can add a @ prefix to indicate a rule that is also essential to match.
After a rule matches, it then proceeds through the rules narrowing the scope and calling the sub-nodes..
func (*Rule) AsParseRule ¶
func (*Rule) Compile ¶
Compile compiles string rules into their runnable elements. Returns true if everything is ok, false if there were compile errors.
func (*Rule) CompileAll ¶
CompileAll is called on the top-level Rule to compile all nodes it calls SetRuleMap first. Returns true if everything is ok, false if there were compile errors
func (*Rule) CompileExcl ¶
CompileExcl compiles exclusionary rules starting at given point currently only working for single-token matching rule
func (*Rule) CompileTokMap ¶ added in v0.5.5
CompileTokMap compiles first token map
func (*Rule) DoActs ¶ added in v0.5.5
DoActs performs actions at given point in rule execution (ri = rule index, is -1 at end)
func (*Rule) DoRules ¶
func (pr *Rule) DoRules(ps *State, par *Rule, parAst *Ast, scope lex.Reg, mpos Matches, optMap lex.TokenMap, depth int) bool
DoRules after we have matched, goes through rest of the rules -- returns false if there were any issues encountered
func (*Rule) DoRulesRevBinExp ¶
func (pr *Rule) DoRulesRevBinExp(ps *State, par *Rule, parAst *Ast, scope lex.Reg, mpos Matches, ourAst *Ast, optMap lex.TokenMap, depth int) bool
DoRulesRevBinExp reverse version of do rules for binary expression rule with one key token in the middle -- we just pay attention to scoping rest of sub-rules relative to that, and don't otherwise adjust scope or position. In particular all the position updating taking place in sup-rules is then just ignored and we set the position to the end position matched by the "last" rule (which was the first processed)
func (*Rule) Find ¶
Find looks for rules in the tree that contain given string in Rule or Name fields
func (*Rule) Match ¶
func (pr *Rule) Match(ps *State, parAst *Ast, scope lex.Reg, depth int, optMap lex.TokenMap) (bool, lex.Reg, Matches)
Match attempts to match the rule, returns true if it matches, and the match positions, along with any update to the scope
func (*Rule) MatchExclude ¶
func (pr *Rule) MatchExclude(ps *State, scope lex.Reg, ktpos lex.Reg, depth int, optMap lex.TokenMap) bool
MatchExclude looks for matches of exclusion tokens -- if found, they exclude this rule return is true if exclude matches and rule should be excluded
func (*Rule) MatchGroup ¶ added in v0.5.5
func (pr *Rule) MatchGroup(ps *State, parAst *Ast, scope lex.Reg, depth int, optMap lex.TokenMap) (bool, lex.Reg, Matches)
MatchGroup does matching for Group rules
func (*Rule) MatchMixed ¶ added in v0.5.5
func (pr *Rule) MatchMixed(ps *State, parAst *Ast, scope lex.Reg, depth int, optMap lex.TokenMap) (bool, Matches)
MatchMixed matches mixed tokens and non-tokens
func (*Rule) MatchNoToks ¶ added in v0.5.5
func (pr *Rule) MatchNoToks(ps *State, parAst *Ast, scope lex.Reg, depth int, optMap lex.TokenMap) (bool, Matches)
MatchNoToks matches NoToks case -- just does single sub-rule match
func (*Rule) MatchOnlyToks ¶ added in v0.5.5
func (pr *Rule) MatchOnlyToks(ps *State, parAst *Ast, scope lex.Reg, depth int, optMap lex.TokenMap) (bool, Matches)
MatchOnlyToks matches rules having only tokens
func (*Rule) MatchToken ¶ added in v0.5.5
func (pr *Rule) MatchToken(ps *State, rr *RuleEl, ri int, kt token.KeyToken, creg *lex.Reg, mpos Matches, parAst *Ast, scope lex.Reg, depth int, optMap lex.TokenMap) (bool, lex.Pos)
MatchToken matches one token sub-rule -- returns true for match and false if no match -- and the position where it was / should have been
func (*Rule) OptimizeOrder ¶ added in v0.5.5
OptimizeOrder optimizes the order of processing rule elements, including: * A block of reversed elements that match from next
func (*Rule) Parse ¶
func (pr *Rule) Parse(ps *State, par *Rule, parAst *Ast, scope lex.Reg, optMap lex.TokenMap, depth int) *Rule
Parse tries to apply rule to given input state, returns rule that matched or nil par is the parent rule that we're being called from. parAst is the current ast node that we add to. scope is the region to search within, defined by parent or EOS if we have a terminal one
func (*Rule) ParseRules ¶
func (pr *Rule) ParseRules(ps *State, par *Rule, parAst *Ast, scope lex.Reg, optMap lex.TokenMap, depth int) *Rule
ParseRules parses rules and returns this rule if it matches, nil if not
func (*Rule) Scope ¶
Scope finds the potential scope region for looking for tokens -- either from EOS position or State ScopeStack pushed from parents. Returns new scope and false if no valid scope found.
func (*Rule) SetRuleMap ¶
SetRuleMap is called on the top-level Rule and initializes the RuleMap
func (*Rule) StartParse ¶
StartParse is called on the root of the parse rule tree to start the parsing process
type RuleEl ¶
type RuleEl struct { Rule *Rule `desc:"sub-rule for this position -- nil if token"` Tok token.KeyToken `desc:"token, None if rule"` StInc int `` /* 173-byte string literal not displayed */ Match bool `` /* 166-byte string literal not displayed */ Opt bool `desc:"this rule is optional -- will absorb tokens if they exist -- indicated with ? prefix"` FmNext bool `` /* 281-byte string literal not displayed */ }
RuleEl is an element of a parsing rule -- either a pointer to another rule or a token
type RuleFlags ¶ added in v0.5.5
type RuleFlags int
RuleFlags define bitflags for rule options compiled from rule syntax
const ( // SetsScope means that this rule sets its own scope, because it ends with EOS SetsScope RuleFlags = RuleFlags(ki.FlagsN) + iota // Reverse means that this rule runs in reverse (starts with - sign) -- for arithmetic // binary expressions only: this is needed to produce proper associativity result for // mathematical expressions in the recursive descent parser. // Only for rules of form: Expr '+' Expr -- two sub-rules with a token operator // in the middle. Reverse // NoToks means that this rule doesn't have any explicit tokens -- only refers to // other rules NoToks // OnlyToks means that this rule only has explicit tokens for matching -- can be // optimized OnlyToks // MatchEOS means that the rule ends with a *matched* EOS with StInc = 1. // SetsScope applies for optional and matching EOS rules alike. MatchEOS // MultiEOS means that the rule has multiple EOS tokens within it -- // changes some of the logic MultiEOS // TokMatchGroup is a group node that also has a single token match, so it can // be used in a FirstTokMap to optimize lookup of rules TokMatchGroup )
type ScopeRuleSet ¶
type ScopeRuleSet map[ScopeRule]struct{}
ScopeRuleSet is a map by scope of RuleSets, for non-matching rules
type State ¶
type State struct { Src *lex.File `view:"no-inline" desc:"source and lexed version of source we're parsing"` Trace TraceOpts `desc:"tracing for this parser"` Ast *Ast `desc:"root of the Ast abstract syntax tree we're updating"` Syms syms.SymMap `` /* 248-byte string literal not displayed */ Scopes syms.SymStack `` /* 209-byte string literal not displayed */ Pos lex.Pos `desc:"the current lex token position"` Errs lex.ErrorList `view:"no-inline" desc:"any error messages accumulated during parsing specifically"` Matches [][]MatchStack `` /* 146-byte string literal not displayed */ NonMatches ScopeRuleSet `view:"no-inline" desc:"rules that did NOT match -- represented as a map by scope of a RuleSet"` Stack lex.Stack `view:"no-inline" desc:"stack for context-sensitive rules"` }
parse.State is the state maintained for parsing
func (*State) AddNonMatch ¶
AddNonMatch adds given rule to non-matching rule set for this scope
func (*State) AllocRules ¶
func (ps *State) AllocRules()
AllocRules allocate the match, nonmatch rule state in correspondence with the src state
func (*State) AtEof ¶
AtEof returns true if current position is at end of file -- this includes common situation where it is just at the very last token
func (*State) AtEofNext ¶ added in v0.5.5
AtEofNext returns true if current OR NEXT position is at end of file -- this includes common situation where it is just at the very last token
func (*State) FindNameScoped ¶ added in v0.5.5
FindNameScoped searches top-down in the stack for something with the given name in symbols that are of subcategory token.NameScope (i.e., namespace, module, package, library) also looks in ps.Syms if not found in Scope stack.
func (*State) FindToken ¶
FindToken looks for token in given region, returns position where found, false if not. Only matches when depth is same as at reg.St start at the start of the search. All positions in token indexes.
func (*State) FindTokenReverse ¶
FindTokenReverse looks *backwards* for token in given region, with same depth as reg.Ed-1 end where the search starts. Returns position where found, false if not. Automatically deals with possible confusion with unary operators -- if there are two ambiguous operators in a row, automatically gets the first one. This is mainly / only used for binary operator expressions (mathematical binary operators). All positions are in token indexes.
func (*State) GotoEof ¶ added in v0.5.5
func (ps *State) GotoEof()
GotoEof sets current position at EOF
func (*State) IsMatch ¶
IsMatch looks for rule at given scope in list of matches, if found returns match state info
func (*State) IsNonMatch ¶
IsNonMatch looks for rule in nonmatch list at given scope
func (*State) MatchToken ¶
MatchToken returns true if token matches at given position -- must be a valid position!
func (*State) NextSrcLine ¶
NextSrcLine returns the next line of text
func (*State) ResetNonMatches ¶ added in v0.5.5
func (ps *State) ResetNonMatches()
ResetNonMatches resets the non-match map -- do after every EOS
func (*State) RuleString ¶
RuleString returns the rule info for entire source -- if full then it includes the full stack at each point -- otherwise just the top of stack
type Steps ¶
type Steps int
Steps are the different steps of the parsing processing
const ( // Match happens when a rule matches Match Steps = iota // SubMatch is when a sub-rule within a rule matches SubMatch // NoMatch is when the rule fails to match (recorded at first non-match, which terminates // matching process NoMatch // Run is when the rule is running and iterating through its sub-rules Run // RunAct is when the rule is running and performing actions RunAct StepsN )
The parsing steps
func (*Steps) FromString ¶
func (Steps) MarshalJSON ¶
func (*Steps) UnmarshalJSON ¶
type TraceOpts ¶
type TraceOpts struct { On bool `desc:"perform tracing"` Rules string `width:"50" desc:"trace specific named rules here (space separated) -- if blank, then all rules are traced"` Match bool `desc:"trace full rule matches -- when a rule fully matches"` SubMatch bool `desc:"trace sub-rule matches -- when the parts of each rule match"` NoMatch bool `` /* 144-byte string literal not displayed */ Run bool `desc:"trace progress runing through each of the sub-rules when a rule has matched and is 'running'"` RunAct bool `desc:"trace actions performed by running rules"` ScopeSrc bool `desc:"if true, shows the full scope source for every trace statement"` FullStackOut bool `desc:"for the ParseOut display, whether to display the full stack of rules at each position, or just the deepest one"` RulesList []string `view:"-" json:"-" xml:"-" desc:"list of rules"` OutWrite *os.File `view:"-" json:"-" xml:"-" desc:"trace output is written here, connected via os.Pipe to OutRead"` OutRead *os.File `` /* 132-byte string literal not displayed */ }
TraceOpts provides options for debugging / monitoring the rule matching and execution process
func (*TraceOpts) Init ¶
func (pt *TraceOpts) Init()
Init intializes tracer after any changes -- opens pipe if not already open
func (*TraceOpts) Out ¶
func (pt *TraceOpts) Out(ps *State, pr *Rule, step Steps, pos lex.Pos, scope lex.Reg, ast *Ast, msg string) bool
Out outputs a trace message -- returns true if actually output