package readline import ( "strings" ) // insertCandidateVirtual - When a completion candidate is selected, we insert it virtually in the input line: // this will not trigger further firltering against the other candidates. Each time this function // is called, any previous candidate is dropped, after being used for moving the cursor around. func (rl *Instance) insertCandidateVirtual(candidate []rune) { for { // I don't really understand why `0` is creaping in at the end of the // array but it only happens with unicode characters. if len(candidate) > 1 && candidate[len(candidate)-1] == 0 { candidate = candidate[:len(candidate)-1] continue } break } // Keep reference of previous candidate to compare its prefix oldComp := rl.currentComp // We place the cursor back at the beginning of the previous virtual candidate rl.pos -= len(rl.oldCOmp) // We delete the previous virtual completion, just // like we would delete a word in vim editing mode. if len(oldComp) == 1 { rl.deleteVirtual() // Delete a single character } else if len(oldComp) > 0 { rl.viDeleteByAdjustVirtual(rl.viJumpEVirtual(tokeniseSplitSpaces) + 1) } prefix := len(rl.tcPrefix) comp := candidate[prefix:] // We then keep a reference to the new candidate rl.currentComp = comp // We should not have a remaining virtual completion // line, so it is now identical to the real line. rl.lineComp = rl.line compPrefix := candidate[:prefix] // first clause checks if the previous input wouldve changed the prefix if (len(oldComp) > 0 && string(oldComp[:prefix]) != rl.tcPrefix) || string(compPrefix) != rl.tcPrefix { rl.viDeleteByAdjustVirtual(-prefix) rl.insertVirtual(compPrefix) } rl.insertVirtual(comp) } func (rl *Instance) insertVirtual(r []rune) { // we dont need that scuffed unicode fix here, since this function // is only called in the 2 instances above, which already handles it switch { case len(rl.lineComp) == 0: rl.lineComp = r case rl.pos == 0: rl.lineComp = append(r, rl.lineComp...) case rl.pos < len(rl.lineComp): r := append(r, rl.lineComp[rl.pos:]...) rl.lineComp = append(rl.lineComp[:rl.pos], r...) default: rl.lineComp = append(rl.lineComp, r...) } // We place the cursor at the end of our new virtually completed item rl.pos += len(r) } // Insert the current completion candidate into the input line. // This candidate might either be the currently selected one (white frame), // or the only candidate available, if the total number of candidates is 1. func (rl *Instance) insertCandidate() { cur := rl.getCurrentGroup() if cur != nil { completion := cur.getCurrentCell(rl) prefix := len(rl.tcPrefix) // Special case for the only special escape, which // if not handled, will make us insert the first // character of our actual rl.tcPrefix in the candidate. if strings.HasPrefix(string(rl.tcPrefix), "%") { prefix++ } // Ensure no indexing error happens with prefix if len(completion) >= prefix { comp := completion[prefix:] if completion[:prefix] != rl.tcPrefix { rl.viDeleteByAdjust(-prefix) comp = completion } rl.insert([]rune(comp)) if !cur.TrimSlash && !cur.NoSpace { rl.insert([]rune(" ")) } } } } // updateVirtualComp - Either insert the current completion candidate virtually, or on the real line. func (rl *Instance) updateVirtualComp() { cur := rl.getCurrentGroup() if cur != nil { completion := cur.getCurrentCell(rl) prefix := len(rl.tcPrefix) // If the total number of completions is one, automatically insert it. if rl.hasOneCandidate() { rl.insertCandidate() // Quit the tab completion mode to avoid asking to the user to press // Enter twice to actually run the command // Refresh first, and then quit the completion mode rl.viUndoSkipAppend = true rl.resetTabCompletion() } else { // Special case for the only special escape, which // if not handled, will make us insert the first // character of our actual rl.tcPrefix in the candidate. if strings.HasPrefix(string(rl.tcPrefix), "%") { prefix++ } // Or insert it virtually. if len(completion) >= prefix { rl.insertCandidateVirtual([]rune(completion)) } } } } // resetVirtualComp - This function is called before most of our readline key handlers, // and makes sure that the current completion (virtually inserted) is either inserted or dropped, // and that all related parameters are reinitialized. func (rl *Instance) resetVirtualComp(drop bool) { // If we don't have a current virtual completion, there's nothing to do. // IMPORTANT: this MUST be first, to avoid nil problems with empty comps. if len(rl.currentComp) == 0 { return } // Get the current candidate and its group. //It contains info on how we must process it cur := rl.getCurrentGroup() if cur == nil { return } completion := cur.getCurrentCell(rl) // Avoid problems with empty completions if completion == "" { rl.clearVirtualComp() return } // We will only insert the net difference between prefix and completion. prefix := len(rl.tcPrefix) // Special case for the only special escape, which // if not handled, will make us insert the first // character of our actual rl.tcPrefix in the candidate. if strings.HasPrefix(string(rl.tcPrefix), "%") { prefix++ } // If we are asked to drop the completion, move it away from the line and return. if drop { rl.pos -= len([]rune(completion[prefix:])) rl.lineComp = rl.line rl.clearVirtualComp() return } // Insert the current candidate. A bit of processing happens: // - We trim the trailing slash if needed // - We add a space only if the group has not explicitely specified not to add one. if cur.TrimSlash { trimmed, hadSlash := trimTrailing(completion) if !hadSlash && rl.compAddSpace { if !cur.NoSpace { trimmed = trimmed + " " } } rl.insertCandidateVirtual([]rune(trimmed)) } else { if rl.compAddSpace { if !cur.NoSpace { completion = completion + " " } } rl.insertCandidateVirtual([]rune(completion)) } // Reset virtual rl.clearVirtualComp() } // trimTrailing - When the group to which the current candidate // belongs has TrimSlash enabled, we process the candidate. // This is used when the completions are directory/file paths. func trimTrailing(comp string) (trimmed string, hadSlash bool) { // Unix paths if strings.HasSuffix(comp, "/") { return strings.TrimSuffix(comp, "/"), true } // Windows paths if strings.HasSuffix(comp, "\\") { return strings.TrimSuffix(comp, "\\"), true } return comp, false } // viDeleteByAdjustVirtual - Same as viDeleteByAdjust, but for our virtually completed input line. func (rl *Instance) viDeleteByAdjustVirtual(adjust int) { var ( newLine []rune backOne bool ) // Avoid doing anything if input line is empty. if len(rl.lineComp) == 0 { return } switch { case adjust == 0: rl.viUndoSkipAppend = true return case rl.pos+adjust == len(rl.lineComp)-1: newLine = rl.lineComp[:rl.pos] // backOne = true // Deleted, otherwise the completion moves back when we don't want to. case rl.pos+adjust == 0: newLine = rl.lineComp[rl.pos:] case adjust < 0: newLine = append(rl.lineComp[:rl.pos+adjust], rl.lineComp[rl.pos:]...) default: newLine = append(rl.lineComp[:rl.pos], rl.lineComp[rl.pos+adjust:]...) } // We have our new line completed rl.lineComp = newLine if adjust < 0 { rl.moveCursorByAdjust(adjust) } if backOne { rl.pos-- } } // viJumpEVirtual - Same as viJumpE, but for our virtually completed input line. func (rl *Instance) viJumpEVirtual(tokeniser func([]rune, int) ([]string, int, int)) (adjust int) { split, index, pos := tokeniser(rl.lineComp, rl.pos) if len(split) == 0 { return } word := rTrimWhiteSpace(split[index]) switch { case len(split) == 0: return case index == len(split)-1 && pos >= len(word)-1: return case pos >= len(word)-1: word = rTrimWhiteSpace(split[index+1]) adjust = len(split[index]) - pos adjust += len(word) - 1 default: adjust = len(word) - pos - 1 } return } func (rl *Instance) deleteVirtual() { switch { case len(rl.lineComp) == 0: return case rl.pos == 0: rl.lineComp = rl.lineComp[1:] case rl.pos > len(rl.lineComp): case rl.pos == len(rl.lineComp): rl.lineComp = rl.lineComp[:rl.pos] default: rl.lineComp = append(rl.lineComp[:rl.pos], rl.lineComp[rl.pos+1:]...) } rl.pos-- } // We are done with the current virtual completion candidate. // Get ready for the next one func (rl *Instance) clearVirtualComp() { rl.line = rl.lineComp rl.currentComp = []rune{} rl.compAddSpace = false }