mirror of
https://github.com/superseriousbusiness/gotosocial.git
synced 2024-12-13 10:30:45 +01:00
c9b6220fef
* [chore] Add interaction filter to complement existing visibility filter
* pass in ptr to visibility and interaction filters to Processor{} to ensure shared
* use int constants for for match type, cache db calls in filterctx
* function name typo 😇
---------
Co-authored-by: kim <grufwub@gmail.com>
555 lines
16 KiB
Go
555 lines
16 KiB
Go
// GoToSocial
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// Copyright (C) GoToSocial Authors admin@gotosocial.org
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// SPDX-License-Identifier: AGPL-3.0-or-later
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//
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// This program is free software: you can redistribute it and/or modify
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// it under the terms of the GNU Affero General Public License as published by
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// the Free Software Foundation, either version 3 of the License, or
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// (at your option) any later version.
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//
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// This program is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU Affero General Public License for more details.
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//
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// You should have received a copy of the GNU Affero General Public License
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// along with this program. If not, see <http://www.gnu.org/licenses/>.
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package status
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import (
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"context"
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"slices"
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"strings"
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apimodel "github.com/superseriousbusiness/gotosocial/internal/api/model"
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statusfilter "github.com/superseriousbusiness/gotosocial/internal/filter/status"
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"github.com/superseriousbusiness/gotosocial/internal/filter/usermute"
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"github.com/superseriousbusiness/gotosocial/internal/gtscontext"
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"github.com/superseriousbusiness/gotosocial/internal/gtserror"
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"github.com/superseriousbusiness/gotosocial/internal/gtsmodel"
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)
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// internalThreadContext is like
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// *apimodel.ThreadContext, but
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// for internal use only.
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type internalThreadContext struct {
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targetStatus *gtsmodel.Status
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ancestors []*gtsmodel.Status
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descendants []*gtsmodel.Status
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}
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func (p *Processor) contextGet(
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ctx context.Context,
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requester *gtsmodel.Account,
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targetStatusID string,
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) (*internalThreadContext, gtserror.WithCode) {
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targetStatus, errWithCode := p.c.GetVisibleTargetStatus(ctx,
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requester,
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targetStatusID,
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nil, // default freshness
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)
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if errWithCode != nil {
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return nil, errWithCode
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}
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// Don't generate thread for boosts/reblogs.
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if targetStatus.BoostOfID != "" {
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err := gtserror.New("target status is a boost wrapper / reblog")
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return nil, gtserror.NewErrorNotFound(err)
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}
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// Fetch up to the top of the thread.
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ancestors, err := p.state.DB.GetStatusParents(ctx, targetStatus)
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if err != nil {
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return nil, gtserror.NewErrorInternalError(err)
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}
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// Do a simple ID sort of ancestors
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// to arrange them by creation time.
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slices.SortFunc(ancestors, func(lhs, rhs *gtsmodel.Status) int {
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return strings.Compare(lhs.ID, rhs.ID)
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})
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// Fetch down to the bottom of the thread.
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descendants, err := p.state.DB.GetStatusChildren(ctx, targetStatus.ID)
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if err != nil {
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return nil, gtserror.NewErrorInternalError(err)
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}
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// Topographically sort descendants,
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// to place them in sub-threads.
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TopoSort(descendants, targetStatus.AccountID)
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return &internalThreadContext{
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targetStatus: targetStatus,
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ancestors: ancestors,
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descendants: descendants,
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}, nil
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}
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// Returns true if status counts as a self-reply
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// *within the current context*, ie., status is a
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// self-reply by contextAcctID to contextAcctID.
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func isSelfReply(
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status *gtsmodel.Status,
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contextAcctID string,
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) bool {
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if status.AccountID != contextAcctID {
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// Doesn't belong
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// to context acct.
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return false
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}
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return status.InReplyToAccountID == contextAcctID
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}
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// TopoSort sorts the given slice of *descendant*
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// statuses topologically, by self-reply, and by ID.
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//
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// "contextAcctID" should be the ID of the account that owns
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// the status the thread context is being constructed around.
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//
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// Can handle cycles but the output order will be arbitrary.
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// (But if there are cycles, something went wrong upstream.)
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func TopoSort(
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statuses []*gtsmodel.Status,
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contextAcctID string,
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) {
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if len(statuses) == 0 {
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return
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}
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// Simple map of status IDs to statuses.
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//
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// Eg.,
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//
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// 01J2BC6DQ37A6SQPAVCZ2BYSTN: *gtsmodel.Status
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// 01J2BC8GT9THMPWMCAZYX48PXJ: *gtsmodel.Status
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// 01J2BC8M56C5ZAH76KN93D7F0W: *gtsmodel.Status
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// 01J2BC90QNW65SM2F89R5M0NGE: *gtsmodel.Status
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// 01J2BC916YVX6D6Q0SA30JV82D: *gtsmodel.Status
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// 01J2BC91J2Y75D4Z3EEDF3DYAV: *gtsmodel.Status
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// 01J2BC91VBVPBZACZMDA7NEZY9: *gtsmodel.Status
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// 01J2BCMM3CXQE70S831YPWT48T: *gtsmodel.Status
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lookup := make(map[string]*gtsmodel.Status, len(statuses))
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for _, status := range statuses {
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lookup[status.ID] = status
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}
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// Tree of statuses to their children.
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//
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// The nil status may have children: any who don't
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// have a parent, or whose parent isn't in the input.
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//
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// Eg.,
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//
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// *gtsmodel.Status (01J2BC916YVX6D6Q0SA30JV82D): [ <- parent2 (1 child)
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// *gtsmodel.Status (01J2BC91J2Y75D4Z3EEDF3DYAV) <- p2 child1
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// ],
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// *gtsmodel.Status (01J2BC6DQ37A6SQPAVCZ2BYSTN): [ <- parent1 (3 children)
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// *gtsmodel.Status (01J2BC8M56C5ZAH76KN93D7F0W) <- p1 child3 |
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// *gtsmodel.Status (01J2BC90QNW65SM2F89R5M0NGE) <- p1 child1 |- Not sorted
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// *gtsmodel.Status (01J2BC8GT9THMPWMCAZYX48PXJ) <- p1 child2 |
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// ],
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// *gtsmodel.Status (01J2BC91VBVPBZACZMDA7NEZY9): [ <- parent3 (no children 😢)
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// ]
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// *gtsmodel.Status (nil): [ <- parent4 (nil status)
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// *gtsmodel.Status (01J2BCMM3CXQE70S831YPWT48T) <- p4 child1 (no parent 😢)
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// ]
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tree := make(map[*gtsmodel.Status][]*gtsmodel.Status, len(statuses))
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for _, status := range statuses {
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var parent *gtsmodel.Status
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if status.InReplyToID != "" {
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// May be nil if reply is missing.
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parent = lookup[status.InReplyToID]
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}
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tree[parent] = append(tree[parent], status)
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}
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// Sort children of each parent by self-reply status and then ID, *in reverse*.
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// This results in the tree looking something like:
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//
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// *gtsmodel.Status (01J2BC916YVX6D6Q0SA30JV82D): [ <- parent2 (1 child)
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// *gtsmodel.Status (01J2BC91J2Y75D4Z3EEDF3DYAV) <- p2 child1
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// ],
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// *gtsmodel.Status (01J2BC6DQ37A6SQPAVCZ2BYSTN): [ <- parent1 (3 children)
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// *gtsmodel.Status (01J2BC90QNW65SM2F89R5M0NGE) <- p1 child1 |
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// *gtsmodel.Status (01J2BC8GT9THMPWMCAZYX48PXJ) <- p1 child2 |- Sorted
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// *gtsmodel.Status (01J2BC8M56C5ZAH76KN93D7F0W) <- p1 child3 |
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// ],
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// *gtsmodel.Status (01J2BC91VBVPBZACZMDA7NEZY9): [ <- parent3 (no children 😢)
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// ],
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// *gtsmodel.Status (nil): [ <- parent4 (nil status)
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// *gtsmodel.Status (01J2BCMM3CXQE70S831YPWT48T) <- p4 child1 (no parent 😢)
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// ]
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for id, children := range tree {
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slices.SortFunc(children, func(lhs, rhs *gtsmodel.Status) int {
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lhsIsSelfReply := isSelfReply(lhs, contextAcctID)
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rhsIsSelfReply := isSelfReply(rhs, contextAcctID)
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if lhsIsSelfReply && !rhsIsSelfReply {
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// lhs is the end
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// of a sub-thread.
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return 1
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} else if !lhsIsSelfReply && rhsIsSelfReply {
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// lhs is the start
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// of a sub-thread.
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return -1
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}
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// Sort by created-at descending.
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return -strings.Compare(lhs.ID, rhs.ID)
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})
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tree[id] = children
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}
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// Traverse the tree using preorder depth-first
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// search, topologically sorting the statuses
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// until the stack is empty.
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//
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// The stack starts with one nil status in it
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// to account for potential nil key in the tree,
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// which means the below "for" loop will always
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// iterate at least once.
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//
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// The result will look something like:
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//
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// *gtsmodel.Status (01J2BC6DQ37A6SQPAVCZ2BYSTN) <- parent1 (3 children)
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// *gtsmodel.Status (01J2BC90QNW65SM2F89R5M0NGE) <- p1 child1 |
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// *gtsmodel.Status (01J2BC8GT9THMPWMCAZYX48PXJ) <- p1 child2 |- Sorted
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// *gtsmodel.Status (01J2BC8M56C5ZAH76KN93D7F0W) <- p1 child3 |
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// *gtsmodel.Status (01J2BC916YVX6D6Q0SA30JV82D) <- parent2 (1 child)
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// *gtsmodel.Status (01J2BC91J2Y75D4Z3EEDF3DYAV) <- p2 child1
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// *gtsmodel.Status (01J2BC91VBVPBZACZMDA7NEZY9) <- parent3 (no children 😢)
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// *gtsmodel.Status (01J2BCMM3CXQE70S831YPWT48T) <- p4 child1 (no parent 😢)
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stack := make([]*gtsmodel.Status, 1, len(tree))
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statusIndex := 0
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for len(stack) > 0 {
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parent := stack[len(stack)-1]
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children := tree[parent]
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if len(children) == 0 {
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// No (more) children so we're
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// done with this node.
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// Remove it from the tree.
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delete(tree, parent)
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// Also remove this node from
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// the stack, then continue
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// from its parent.
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stack = stack[:len(stack)-1]
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continue
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}
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// Pop the last child entry
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// (the first in sorted order).
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child := children[len(children)-1]
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tree[parent] = children[:len(children)-1]
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// Explore its children next.
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stack = append(stack, child)
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// Overwrite the next entry of the input slice.
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statuses[statusIndex] = child
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statusIndex++
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}
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// There should only be orphan nodes remaining
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// (or other nodes in the event of a cycle).
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// Append them to the end in arbitrary order.
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//
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// The fact we put them in a map first just
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// ensures the slice of statuses has no duplicates.
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for orphan := range tree {
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statuses[statusIndex] = orphan
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statusIndex++
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}
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}
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// ContextGet returns the context (previous
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// and following posts) from the given status ID.
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func (p *Processor) ContextGet(
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ctx context.Context,
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requester *gtsmodel.Account,
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targetStatusID string,
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) (*apimodel.ThreadContext, gtserror.WithCode) {
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// Retrieve filters as they affect
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// what should be shown to requester.
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filters, err := p.state.DB.GetFiltersForAccountID(
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ctx, // Populate filters.
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requester.ID,
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)
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if err != nil {
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err = gtserror.Newf(
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"couldn't retrieve filters for account %s: %w",
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requester.ID, err,
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)
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return nil, gtserror.NewErrorInternalError(err)
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}
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// Retrieve mutes as they affect
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// what should be shown to requester.
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mutes, err := p.state.DB.GetAccountMutes(
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// No need to populate mutes,
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// IDs are enough here.
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gtscontext.SetBarebones(ctx),
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requester.ID,
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nil, // No paging - get all.
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)
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if err != nil {
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err = gtserror.Newf(
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"couldn't retrieve mutes for account %s: %w",
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requester.ID, err,
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)
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return nil, gtserror.NewErrorInternalError(err)
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}
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convert := func(
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ctx context.Context,
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status *gtsmodel.Status,
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requestingAccount *gtsmodel.Account,
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) (*apimodel.Status, error) {
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return p.converter.StatusToAPIStatus(
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ctx,
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status,
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requestingAccount,
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statusfilter.FilterContextThread,
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filters,
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usermute.NewCompiledUserMuteList(mutes),
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)
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}
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// Retrieve the thread context.
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threadContext, errWithCode := p.contextGet(
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ctx,
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requester,
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targetStatusID,
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)
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if errWithCode != nil {
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return nil, errWithCode
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}
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apiContext := &apimodel.ThreadContext{
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Ancestors: make([]apimodel.Status, 0, len(threadContext.ancestors)),
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Descendants: make([]apimodel.Status, 0, len(threadContext.descendants)),
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}
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// Convert ancestors + filter
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// out ones that aren't visible.
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for _, status := range threadContext.ancestors {
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if v, err := p.visFilter.StatusVisible(ctx, requester, status); err == nil && v {
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status, err := convert(ctx, status, requester)
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if err == nil {
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apiContext.Ancestors = append(apiContext.Ancestors, *status)
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}
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}
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}
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// Convert descendants + filter
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// out ones that aren't visible.
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for _, status := range threadContext.descendants {
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if v, err := p.visFilter.StatusVisible(ctx, requester, status); err == nil && v {
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status, err := convert(ctx, status, requester)
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if err == nil {
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apiContext.Descendants = append(apiContext.Descendants, *status)
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}
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}
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}
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return apiContext, nil
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}
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// WebContextGet is like ContextGet, but is explicitly
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// for viewing statuses via the unauthenticated web UI.
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//
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// The returned statuses in the ThreadContext will be
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// populated with ThreadMeta annotations for more easily
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// positioning the status in a web view of a thread.
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func (p *Processor) WebContextGet(
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ctx context.Context,
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targetStatusID string,
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) (*apimodel.WebThreadContext, gtserror.WithCode) {
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// Retrieve the internal thread context.
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iCtx, errWithCode := p.contextGet(
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ctx,
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nil, // No authed requester.
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targetStatusID,
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)
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if errWithCode != nil {
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return nil, errWithCode
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}
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// Recreate the whole thread so we can go
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// through it again add ThreadMeta annotations
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// from the perspective of the OG status.
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// nolint:gocritic
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wholeThread := append(
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// Ancestors at the beginning.
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iCtx.ancestors,
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append(
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// Target status in the middle.
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[]*gtsmodel.Status{iCtx.targetStatus},
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// Descendants at the end.
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iCtx.descendants...,
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)...,
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)
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// Start preparing web context.
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wCtx := &apimodel.WebThreadContext{
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Statuses: make([]*apimodel.WebStatus, 0, len(wholeThread)),
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}
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var (
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threadLength = len(wholeThread)
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// Track how much each reply status
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// should be indented (if at all).
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statusIndents = make(map[string]int, threadLength)
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// Who the current thread "belongs" to,
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// ie., who created first post in the thread.
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contextAcctID = wholeThread[0].AccountID
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// Whether we've reached end of "main"
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// thread and are now looking at replies.
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inReplies bool
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// Index in wholeThread
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// where replies begin.
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firstReplyIdx int
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// We should mark the next **VISIBLE**
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// reply as the first reply.
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markNextVisibleAsFirstReply bool
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)
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for idx, status := range wholeThread {
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if !inReplies {
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// Check if we've reached replies
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// by looking for the first status
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// that's not a self-reply, ie.,
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// not a post in the "main" thread.
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switch {
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case idx == 0:
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// First post in wholeThread can't
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// be a self reply anyway because
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// it (very likely) doesn't reply
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// to anything, so ignore it.
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case !isSelfReply(status, contextAcctID):
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// This is not a self-reply, which
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// means it's a reply from another
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// account. So, replies start here.
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inReplies = true
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firstReplyIdx = idx
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markNextVisibleAsFirstReply = true
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}
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}
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// Ensure status is actually
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// visible to just anyone, and
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// hide / don't include it if not.
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v, err := p.visFilter.StatusVisible(ctx, nil, status)
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if err != nil || !v {
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if !inReplies {
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// Main thread entry hidden.
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wCtx.ThreadHidden++
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} else {
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// Reply hidden.
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wCtx.ThreadRepliesHidden++
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}
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continue
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}
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// Prepare visible status to add to thread context.
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webStatus, err := p.converter.StatusToWebStatus(ctx, status)
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if err != nil {
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continue
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}
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if markNextVisibleAsFirstReply {
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// This is the first visible
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// "reply / comment", so the
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// little "x amount of replies"
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// header should go above this.
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webStatus.ThreadFirstReply = true
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markNextVisibleAsFirstReply = false
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}
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// If this is a reply, work out the indent of
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// this status based on its parent's indent.
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if inReplies {
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parentIndent, ok := statusIndents[status.InReplyToID]
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switch {
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case !ok:
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// No parent with
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// indent, start at 0.
|
|
webStatus.Indent = 0
|
|
|
|
case isSelfReply(status, status.AccountID):
|
|
// Self reply, so indent at same
|
|
// level as own replied-to status.
|
|
webStatus.Indent = parentIndent
|
|
|
|
case parentIndent == 5:
|
|
// Already indented as far as we
|
|
// can go to keep things readable
|
|
// on thin screens, so just keep
|
|
// parent's indent.
|
|
webStatus.Indent = parentIndent
|
|
|
|
default:
|
|
// Reply to someone else who's
|
|
// indented, but not to TO THE MAX.
|
|
// Indent by another one.
|
|
webStatus.Indent = parentIndent + 1
|
|
}
|
|
|
|
// Store the indent for this status.
|
|
statusIndents[status.ID] = webStatus.Indent
|
|
}
|
|
|
|
if webStatus.ID == targetStatusID {
|
|
// This is the og
|
|
// thread context status.
|
|
webStatus.ThreadContextStatus = true
|
|
wCtx.Status = webStatus
|
|
}
|
|
|
|
wCtx.Statuses = append(wCtx.Statuses, webStatus)
|
|
}
|
|
|
|
// Now we've gone through the whole
|
|
// thread, we can add some additional info.
|
|
|
|
// Length of the "main" thread. If there are
|
|
// visible replies then it's up to where the
|
|
// replies start, else it's the whole thing.
|
|
if inReplies {
|
|
wCtx.ThreadLength = firstReplyIdx
|
|
} else {
|
|
wCtx.ThreadLength = threadLength
|
|
}
|
|
|
|
// Jot down number of hidden posts so template doesn't have to do it.
|
|
wCtx.ThreadShown = wCtx.ThreadLength - wCtx.ThreadHidden
|
|
|
|
// Mark the last "main" visible status.
|
|
wCtx.Statuses[wCtx.ThreadShown-1].ThreadLastMain = true
|
|
|
|
// Number of replies is equal to number
|
|
// of statuses in the thread that aren't
|
|
// part of the "main" thread.
|
|
wCtx.ThreadReplies = threadLength - wCtx.ThreadLength
|
|
|
|
// Jot down number of hidden replies so template doesn't have to do it.
|
|
wCtx.ThreadRepliesShown = wCtx.ThreadReplies - wCtx.ThreadRepliesHidden
|
|
|
|
// Return the finished context.
|
|
return wCtx, nil
|
|
}
|