notepad-plus-plus/scintilla/lexlib/PropSetSimple.cxx

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// Scintilla source code edit control
/** @file PropSetSimple.cxx
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** A basic string to string map.
**/
// Copyright 1998-2010 by Neil Hodgson <neilh@scintilla.org>
// The License.txt file describes the conditions under which this software may be distributed.
// Maintain a dictionary of properties
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#include <cstdlib>
#include <cstring>
#include <string>
#include <map>
#include "PropSetSimple.h"
using namespace Scintilla;
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namespace {
typedef std::map<std::string, std::string> mapss;
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mapss *PropsFromPointer(void *impl) {
return static_cast<mapss *>(impl);
}
}
PropSetSimple::PropSetSimple() {
mapss *props = new mapss;
impl = static_cast<void *>(props);
}
PropSetSimple::~PropSetSimple() {
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mapss *props = PropsFromPointer(impl);
delete props;
impl = 0;
}
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void PropSetSimple::Set(const char *key, const char *val, size_t lenKey, size_t lenVal) {
mapss *props = PropsFromPointer(impl);
if (!*key) // Empty keys are not supported
return;
(*props)[std::string(key, lenKey)] = std::string(val, lenVal);
}
static bool IsASpaceCharacter(unsigned int ch) {
return (ch == ' ') || ((ch >= 0x09) && (ch <= 0x0d));
}
void PropSetSimple::Set(const char *keyVal) {
while (IsASpaceCharacter(*keyVal))
keyVal++;
const char *endVal = keyVal;
while (*endVal && (*endVal != '\n'))
endVal++;
const char *eqAt = strchr(keyVal, '=');
if (eqAt) {
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Set(keyVal, eqAt + 1, eqAt-keyVal,
endVal - eqAt - 1);
} else if (*keyVal) { // No '=' so assume '=1'
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Set(keyVal, "1", endVal-keyVal, 1);
}
}
void PropSetSimple::SetMultiple(const char *s) {
const char *eol = strchr(s, '\n');
while (eol) {
Set(s);
s = eol + 1;
eol = strchr(s, '\n');
}
Set(s);
}
const char *PropSetSimple::Get(const char *key) const {
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mapss *props = PropsFromPointer(impl);
mapss::const_iterator keyPos = props->find(std::string(key));
if (keyPos != props->end()) {
return keyPos->second.c_str();
} else {
return "";
}
}
// There is some inconsistency between GetExpanded("foo") and Expand("$(foo)").
// A solution is to keep a stack of variables that have been expanded, so that
// recursive expansions can be skipped. For now I'll just use the C++ stack
// for that, through a recursive function and a simple chain of pointers.
struct VarChain {
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VarChain(const char *var_=nullptr, const VarChain *link_= nullptr): var(var_), link(link_) {}
bool contains(const char *testVar) const {
return (var && (0 == strcmp(var, testVar)))
|| (link && link->contains(testVar));
}
const char *var;
const VarChain *link;
};
static int ExpandAllInPlace(const PropSetSimple &props, std::string &withVars, int maxExpands, const VarChain &blankVars) {
size_t varStart = withVars.find("$(");
while ((varStart != std::string::npos) && (maxExpands > 0)) {
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const size_t varEnd = withVars.find(')', varStart+2);
if (varEnd == std::string::npos) {
break;
}
// For consistency, when we see '$(ab$(cde))', expand the inner variable first,
// regardless whether there is actually a degenerate variable named 'ab$(cde'.
size_t innerVarStart = withVars.find("$(", varStart+2);
while ((innerVarStart != std::string::npos) && (innerVarStart > varStart) && (innerVarStart < varEnd)) {
varStart = innerVarStart;
innerVarStart = withVars.find("$(", varStart+2);
}
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std::string var(withVars, varStart + 2, varEnd - varStart - 2);
std::string val = props.Get(var.c_str());
if (blankVars.contains(var.c_str())) {
val = ""; // treat blankVar as an empty string (e.g. to block self-reference)
}
if (--maxExpands >= 0) {
maxExpands = ExpandAllInPlace(props, val, maxExpands, VarChain(var.c_str(), &blankVars));
}
withVars.erase(varStart, varEnd-varStart+1);
withVars.insert(varStart, val.c_str(), val.length());
varStart = withVars.find("$(");
}
return maxExpands;
}
int PropSetSimple::GetExpanded(const char *key, char *result) const {
std::string val = Get(key);
ExpandAllInPlace(*this, val, 100, VarChain(key));
const int n = static_cast<int>(val.size());
if (result) {
memcpy(result, val.c_str(), n+1);
}
return n; // Not including NUL
}
int PropSetSimple::GetInt(const char *key, int defaultValue) const {
std::string val = Get(key);
ExpandAllInPlace(*this, val, 100, VarChain(key));
if (!val.empty()) {
return atoi(val.c_str());
}
return defaultValue;
}