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add initial bulk run from pre-commit over all files

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This commit is contained in:
Felix Schurk
2024-07-29 22:34:51 +02:00
parent 665aeeef61
commit 93356b39c3
418 changed files with 21354 additions and 23858 deletions
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306
src/rules.cpp
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@@ -27,175 +27,145 @@
#include <cmake.h>
// cmake.h include header must come first
#include <stdlib.h>
#include <Context.h>
#include <Datetime.h>
#include <shared.h>
#include <main.h>
#include <shared.h>
#include <stdlib.h>
static std::map <std::string, Color> gsColor;
static std::vector <std::string> gsPrecedence;
static std::map<std::string, Color> gsColor;
static std::vector<std::string> gsPrecedence;
static Datetime now;
////////////////////////////////////////////////////////////////////////////////
void initializeColorRules ()
{
void initializeColorRules() {
// If color is not enable/supported, short circuit.
if (! Context::getContext ().color ())
return;
if (!Context::getContext().color()) return;
try
{
gsColor.clear ();
gsPrecedence.clear ();
try {
gsColor.clear();
gsPrecedence.clear();
// Load all the configuration values, filter to only the ones that begin with
// "color.", then store name/value in gsColor, and name in rules.
std::vector <std::string> rules;
for (const auto& v : Context::getContext ().config)
{
if (! v.first.compare (0, 6, "color.", 6))
{
Color c (v.second);
std::vector<std::string> rules;
for (const auto& v : Context::getContext().config) {
if (!v.first.compare(0, 6, "color.", 6)) {
Color c(v.second);
gsColor[v.first] = c;
rules.push_back (v.first);
rules.push_back(v.first);
}
}
// Load the rule.precedence.color list, split it, then autocomplete against
// the 'rules' vector loaded above.
std::vector <std::string> results;
auto precedence = split (Context::getContext ().config.get ("rule.precedence.color"), ',');
std::vector<std::string> results;
auto precedence = split(Context::getContext().config.get("rule.precedence.color"), ',');
for (const auto& p : precedence)
{
for (const auto& p : precedence) {
// Add the leading "color." string.
std::string rule = "color." + p;
autoComplete (rule, rules, results, 3); // Hard-coded 3.
autoComplete(rule, rules, results, 3); // Hard-coded 3.
for (auto& r : results)
gsPrecedence.push_back (r);
for (auto& r : results) gsPrecedence.push_back(r);
}
}
catch (const std::string& e)
{
Context::getContext ().error (e);
catch (const std::string& e) {
Context::getContext().error(e);
}
}
////////////////////////////////////////////////////////////////////////////////
static void applyColor (const Color& base, Color& c, bool merge)
{
static void applyColor(const Color& base, Color& c, bool merge) {
if (merge)
c.blend (base);
c.blend(base);
else
c = base;
}
////////////////////////////////////////////////////////////////////////////////
static void colorizeBlocked (Task& task, const Color& base, Color& c, bool merge)
{
if (task.is_blocked)
applyColor (base, c, merge);
static void colorizeBlocked(Task& task, const Color& base, Color& c, bool merge) {
if (task.is_blocked) applyColor(base, c, merge);
}
////////////////////////////////////////////////////////////////////////////////
static void colorizeBlocking (Task& task, const Color& base, Color& c, bool merge)
{
if (task.is_blocking)
applyColor (base, c, merge);
static void colorizeBlocking(Task& task, const Color& base, Color& c, bool merge) {
if (task.is_blocking) applyColor(base, c, merge);
}
////////////////////////////////////////////////////////////////////////////////
static void colorizeTagged (Task& task, const Color& base, Color& c, bool merge)
{
if (task.getTagCount ())
applyColor (base, c, merge);
static void colorizeTagged(Task& task, const Color& base, Color& c, bool merge) {
if (task.getTagCount()) applyColor(base, c, merge);
}
////////////////////////////////////////////////////////////////////////////////
static void colorizeActive (Task& task, const Color& base, Color& c, bool merge)
{
static void colorizeActive(Task& task, const Color& base, Color& c, bool merge) {
// TODO: Not consistent with the implementation of the +ACTIVE virtual tag
if (task.has ("start") &&
!task.has ("end"))
applyColor (base, c, merge);
if (task.has("start") && !task.has("end")) applyColor(base, c, merge);
}
////////////////////////////////////////////////////////////////////////////////
static void colorizeScheduled (Task& task, const Color& base, Color& c, bool merge)
{
static void colorizeScheduled(Task& task, const Color& base, Color& c, bool merge) {
// TODO: Not consistent with the implementation of the +SCHEDULED virtual tag
if (task.has ("scheduled") &&
Datetime (task.get_date ("scheduled")) <= now)
applyColor (base, c, merge);
if (task.has("scheduled") && Datetime(task.get_date("scheduled")) <= now)
applyColor(base, c, merge);
}
////////////////////////////////////////////////////////////////////////////////
static void colorizeUntil (Task& task, const Color& base, Color& c, bool merge)
{
if (task.has ("until"))
applyColor (base, c, merge);
static void colorizeUntil(Task& task, const Color& base, Color& c, bool merge) {
if (task.has("until")) applyColor(base, c, merge);
}
////////////////////////////////////////////////////////////////////////////////
static void colorizeTag (Task& task, const std::string& rule, const Color& base, Color& c, bool merge)
{
if (task.hasTag (rule.substr (10)))
applyColor (base, c, merge);
static void colorizeTag(Task& task, const std::string& rule, const Color& base, Color& c,
bool merge) {
if (task.hasTag(rule.substr(10))) applyColor(base, c, merge);
}
////////////////////////////////////////////////////////////////////////////////
static void colorizeProject (Task& task, const std::string& rule, const Color& base, Color& c, bool merge)
{
static void colorizeProject(Task& task, const std::string& rule, const Color& base, Color& c,
bool merge) {
// Observe the case sensitivity setting.
bool sensitive = Context::getContext ().config.getBoolean ("search.case.sensitive");
bool sensitive = Context::getContext().config.getBoolean("search.case.sensitive");
auto project = task.get ("project");
auto rule_trunc = rule.substr (14);
auto project = task.get("project");
auto rule_trunc = rule.substr(14);
// Match project names leftmost.
if (rule_trunc.length () <= project.length ())
if (compare (rule_trunc, project.substr (0, rule_trunc.length ()), sensitive))
applyColor (base, c, merge);
if (rule_trunc.length() <= project.length())
if (compare(rule_trunc, project.substr(0, rule_trunc.length()), sensitive))
applyColor(base, c, merge);
}
////////////////////////////////////////////////////////////////////////////////
static void colorizeProjectNone (Task& task, const Color& base, Color& c, bool merge)
{
if(!task.has ("project"))
applyColor (base, c, merge);
static void colorizeProjectNone(Task& task, const Color& base, Color& c, bool merge) {
if (!task.has("project")) applyColor(base, c, merge);
}
////////////////////////////////////////////////////////////////////////////////
static void colorizeTagNone (Task& task, const Color& base, Color& c, bool merge)
{
if (task.getTagCount () == 0)
applyColor (base, c, merge);
static void colorizeTagNone(Task& task, const Color& base, Color& c, bool merge) {
if (task.getTagCount() == 0) applyColor(base, c, merge);
}
////////////////////////////////////////////////////////////////////////////////
static void colorizeKeyword (Task& task, const std::string& rule, const Color& base, Color& c, bool merge)
{
static void colorizeKeyword(Task& task, const std::string& rule, const Color& base, Color& c,
bool merge) {
// Observe the case sensitivity setting.
auto sensitive = Context::getContext ().config.getBoolean ("search.case.sensitive");
auto sensitive = Context::getContext().config.getBoolean("search.case.sensitive");
// The easiest thing to check is the description, because it is just one
// attribute.
if (find (task.get ("description"), rule.substr (14), sensitive) != std::string::npos)
applyColor (base, c, merge);
if (find(task.get("description"), rule.substr(14), sensitive) != std::string::npos)
applyColor(base, c, merge);
// Failing the description check, look at all annotations, returning on the
// first match.
else
{
for (const auto& att : task.getAnnotations ())
{
if (find (att.second, rule.substr (14), sensitive) != std::string::npos)
{
applyColor (base, c, merge);
else {
for (const auto& att : task.getAnnotations()) {
if (find(att.second, rule.substr(14), sensitive) != std::string::npos) {
applyColor(base, c, merge);
return;
}
}
@@ -203,146 +173,132 @@ static void colorizeKeyword (Task& task, const std::string& rule, const Color& b
}
////////////////////////////////////////////////////////////////////////////////
static void colorizeUDA (Task& task, const std::string& rule, const Color& base, Color& c, bool merge)
{
static void colorizeUDA(Task& task, const std::string& rule, const Color& base, Color& c,
bool merge) {
// Is the rule color.uda.name.value or color.uda.name?
auto pos = rule.find ('.', 10);
if (pos == std::string::npos)
{
if (task.has (rule.substr (10)))
applyColor (base, c, merge);
}
else
{
auto uda = rule.substr (10, pos - 10);
auto val = rule.substr (pos + 1);
if ((val == "none" && ! task.has (uda)) ||
task.get (uda) == val)
applyColor (base, c, merge);
auto pos = rule.find('.', 10);
if (pos == std::string::npos) {
if (task.has(rule.substr(10))) applyColor(base, c, merge);
} else {
auto uda = rule.substr(10, pos - 10);
auto val = rule.substr(pos + 1);
if ((val == "none" && !task.has(uda)) || task.get(uda) == val) applyColor(base, c, merge);
}
}
////////////////////////////////////////////////////////////////////////////////
static void colorizeDue (Task& task, const Color& base, Color& c, bool merge)
{
if (task.is_due ())
applyColor (base, c, merge);
static void colorizeDue(Task& task, const Color& base, Color& c, bool merge) {
if (task.is_due()) applyColor(base, c, merge);
}
////////////////////////////////////////////////////////////////////////////////
static void colorizeDueToday (Task& task, const Color& base, Color& c, bool merge)
{
if (task.is_duetoday ())
applyColor (base, c, merge);
static void colorizeDueToday(Task& task, const Color& base, Color& c, bool merge) {
if (task.is_duetoday()) applyColor(base, c, merge);
}
////////////////////////////////////////////////////////////////////////////////
static void colorizeOverdue (Task& task, const Color& base, Color& c, bool merge)
{
if (task.is_overdue ())
applyColor (base, c, merge);
static void colorizeOverdue(Task& task, const Color& base, Color& c, bool merge) {
if (task.is_overdue()) applyColor(base, c, merge);
}
////////////////////////////////////////////////////////////////////////////////
static void colorizeRecurring (Task& task, const Color& base, Color& c, bool merge)
{
if (task.has ("recur"))
applyColor (base, c, merge);
static void colorizeRecurring(Task& task, const Color& base, Color& c, bool merge) {
if (task.has("recur")) applyColor(base, c, merge);
}
////////////////////////////////////////////////////////////////////////////////
static void colorizeCompleted (Task& task, const Color& base, Color& c, bool merge)
{
if (task.getStatus () == Task::completed)
applyColor (base, c, merge);
static void colorizeCompleted(Task& task, const Color& base, Color& c, bool merge) {
if (task.getStatus() == Task::completed) applyColor(base, c, merge);
}
////////////////////////////////////////////////////////////////////////////////
static void colorizeDeleted (Task& task, const Color& base, Color& c, bool merge)
{
if (task.getStatus () == Task::deleted)
applyColor (base, c, merge);
static void colorizeDeleted(Task& task, const Color& base, Color& c, bool merge) {
if (task.getStatus() == Task::deleted) applyColor(base, c, merge);
}
////////////////////////////////////////////////////////////////////////////////
void autoColorize (Task& task, Color& c)
{
void autoColorize(Task& task, Color& c) {
// The special tag 'nocolor' overrides all auto and specific colorization.
if (! Context::getContext ().color () ||
task.hasTag ("nocolor"))
{
c = Color ();
if (!Context::getContext().color() || task.hasTag("nocolor")) {
c = Color();
return;
}
auto merge = Context::getContext ().config.getBoolean ("rule.color.merge");
auto merge = Context::getContext().config.getBoolean("rule.color.merge");
// Note: c already contains colors specifically assigned via command.
// Note: These rules form a hierarchy - the last rule is King, hence the
// reverse iterator.
for (auto r = gsPrecedence.rbegin (); r != gsPrecedence.rend (); ++r)
{
for (auto r = gsPrecedence.rbegin(); r != gsPrecedence.rend(); ++r) {
Color base = gsColor[*r];
if (base.nontrivial ())
{
if (*r == "color.blocked") colorizeBlocked (task, base, c, merge);
else if (*r == "color.blocking") colorizeBlocking (task, base, c, merge);
else if (*r == "color.tagged") colorizeTagged (task, base, c, merge);
else if (*r == "color.active") colorizeActive (task, base, c, merge);
else if (*r == "color.scheduled") colorizeScheduled (task, base, c, merge);
else if (*r == "color.until") colorizeUntil (task, base, c, merge);
else if (*r == "color.project.none") colorizeProjectNone (task, base, c, merge);
else if (*r == "color.tag.none") colorizeTagNone (task, base, c, merge);
else if (*r == "color.due") colorizeDue (task, base, c, merge);
else if (*r == "color.due.today") colorizeDueToday (task, base, c, merge);
else if (*r == "color.overdue") colorizeOverdue (task, base, c, merge);
else if (*r == "color.recurring") colorizeRecurring (task, base, c, merge);
else if (*r == "color.completed") colorizeCompleted (task, base, c, merge);
else if (*r == "color.deleted") colorizeDeleted (task, base, c, merge);
if (base.nontrivial()) {
if (*r == "color.blocked")
colorizeBlocked(task, base, c, merge);
else if (*r == "color.blocking")
colorizeBlocking(task, base, c, merge);
else if (*r == "color.tagged")
colorizeTagged(task, base, c, merge);
else if (*r == "color.active")
colorizeActive(task, base, c, merge);
else if (*r == "color.scheduled")
colorizeScheduled(task, base, c, merge);
else if (*r == "color.until")
colorizeUntil(task, base, c, merge);
else if (*r == "color.project.none")
colorizeProjectNone(task, base, c, merge);
else if (*r == "color.tag.none")
colorizeTagNone(task, base, c, merge);
else if (*r == "color.due")
colorizeDue(task, base, c, merge);
else if (*r == "color.due.today")
colorizeDueToday(task, base, c, merge);
else if (*r == "color.overdue")
colorizeOverdue(task, base, c, merge);
else if (*r == "color.recurring")
colorizeRecurring(task, base, c, merge);
else if (*r == "color.completed")
colorizeCompleted(task, base, c, merge);
else if (*r == "color.deleted")
colorizeDeleted(task, base, c, merge);
// Wildcards
else if (! r->compare (0, 10, "color.tag.", 10)) colorizeTag (task, *r, base, c, merge);
else if (! r->compare (0, 14, "color.project.", 14)) colorizeProject (task, *r, base, c, merge);
else if (! r->compare (0, 14, "color.keyword.", 14)) colorizeKeyword (task, *r, base, c, merge);
else if (! r->compare (0, 10, "color.uda.", 10)) colorizeUDA (task, *r, base, c, merge);
else if (!r->compare(0, 10, "color.tag.", 10))
colorizeTag(task, *r, base, c, merge);
else if (!r->compare(0, 14, "color.project.", 14))
colorizeProject(task, *r, base, c, merge);
else if (!r->compare(0, 14, "color.keyword.", 14))
colorizeKeyword(task, *r, base, c, merge);
else if (!r->compare(0, 10, "color.uda.", 10))
colorizeUDA(task, *r, base, c, merge);
}
}
}
////////////////////////////////////////////////////////////////////////////////
std::string colorizeHeader (const std::string& input)
{
if (gsColor["color.header"].nontrivial ())
return gsColor["color.header"].colorize (input);
std::string colorizeHeader(const std::string& input) {
if (gsColor["color.header"].nontrivial()) return gsColor["color.header"].colorize(input);
return input;
}
////////////////////////////////////////////////////////////////////////////////
std::string colorizeFootnote (const std::string& input)
{
if (gsColor["color.footnote"].nontrivial ())
return gsColor["color.footnote"].colorize (input);
std::string colorizeFootnote(const std::string& input) {
if (gsColor["color.footnote"].nontrivial()) return gsColor["color.footnote"].colorize(input);
return input;
}
////////////////////////////////////////////////////////////////////////////////
std::string colorizeError (const std::string& input)
{
if (gsColor["color.error"].nontrivial ())
return gsColor["color.error"].colorize (input);
std::string colorizeError(const std::string& input) {
if (gsColor["color.error"].nontrivial()) return gsColor["color.error"].colorize(input);
return input;
}
////////////////////////////////////////////////////////////////////////////////
std::string colorizeDebug (const std::string& input)
{
if (gsColor["color.debug"].nontrivial ())
return gsColor["color.debug"].colorize (input);
std::string colorizeDebug(const std::string& input) {
if (gsColor["color.debug"].nontrivial()) return gsColor["color.debug"].colorize(input);
return input;
}