Aegisub/src/ass_override.cpp

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// Copyright (c) 2005, Rodrigo Braz Monteiro
// Copyright (c) 2010, Thomas Goyne <plorkyeran@aegisub.org>
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// All rights reserved.
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are met:
//
// * Redistributions of source code must retain the above copyright notice,
// this list of conditions and the following disclaimer.
// * Redistributions in binary form must reproduce the above copyright notice,
// this list of conditions and the following disclaimer in the documentation
// and/or other materials provided with the distribution.
// * Neither the name of the Aegisub Group nor the names of its contributors
// may be used to endorse or promote products derived from this software
// without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
// AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
// IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
// ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
// LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
// CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
// SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
// INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
// CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
// ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
// POSSIBILITY OF SUCH DAMAGE.
//
// Aegisub Project http://www.aegisub.org/
#include "ass_dialogue.h"
#include "utils.h"
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#include <libaegisub/color.h>
#include <libaegisub/exception.h>
#include <libaegisub/format.h>
#include <libaegisub/make_unique.h>
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#include <boost/algorithm/string/join.hpp>
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#include <boost/algorithm/string/predicate.hpp>
#include <boost/algorithm/string/trim.hpp>
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#include <boost/range/adaptor/filtered.hpp>
#include <boost/range/adaptor/transformed.hpp>
#include <functional>
using namespace boost::adaptors;
AssOverrideParameter::AssOverrideParameter(VariableDataType type, AssParameterClass classification)
: type(type)
, classification(classification)
{
}
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AssOverrideParameter::~AssOverrideParameter() = default;
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template<> std::string AssOverrideParameter::Get<std::string>() const {
if (omitted) throw agi::InternalError("AssOverrideParameter::Get() called on omitted parameter");
if (block.get()) {
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std::string str(block->GetText());
if (boost::starts_with(str, "{")) str.erase(begin(str));
if (boost::ends_with(str, "}")) str.erase(end(str) - 1);
return str;
}
return value;
}
template<> int AssOverrideParameter::Get<int>() const {
if (classification == AssParameterClass::ALPHA)
// &Hxx&, but vsfilter lets you leave everything out
return mid<int>(0, strtol(std::find_if(value.c_str(), value.c_str() + value.size(), isxdigit), nullptr, 16), 255);
return atoi(Get<std::string>().c_str());
}
template<> double AssOverrideParameter::Get<double>() const {
return atof(Get<std::string>().c_str());
}
template<> float AssOverrideParameter::Get<float>() const {
return atof(Get<std::string>().c_str());
}
template<> bool AssOverrideParameter::Get<bool>() const {
return Get<int>() != 0;
}
template<> agi::Color AssOverrideParameter::Get<agi::Color>() const {
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return Get<std::string>();
}
template<> AssDialogueBlockOverride *AssOverrideParameter::Get<AssDialogueBlockOverride*>() const {
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if (!block) {
block = agi::make_unique<AssDialogueBlockOverride>(Get<std::string>());
block->ParseTags();
}
return block.get();
}
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template<> void AssOverrideParameter::Set<std::string>(std::string new_value) {
omitted = false;
value = new_value;
block.reset();
}
template<> void AssOverrideParameter::Set<int>(int new_value) {
if (classification == AssParameterClass::ALPHA)
Set(agi::format("&H%02X&", mid(0, new_value, 255)));
else
Set(std::to_string(new_value));
}
template<> void AssOverrideParameter::Set<double>(double new_value) {
Set(float_to_string(new_value));
}
template<> void AssOverrideParameter::Set<bool>(bool new_value) {
Set<int>(new_value);
}
namespace {
/// The parameter is absent unless the total number of parameters is the
/// indicated number. Note that only arguments not at the end need to be marked
/// as optional; this is just to know which parameters to skip when there are
/// earlier optional arguments
enum AssParameterOptional {
NOT_OPTIONAL = 0xFF,
OPTIONAL_1 = 0x01,
OPTIONAL_2 = 0x02,
OPTIONAL_3 = 0x04,
OPTIONAL_4 = 0x08,
OPTIONAL_5 = 0x10,
OPTIONAL_6 = 0x20,
OPTIONAL_7 = 0x40
};
/// Prototype of a single override parameter
struct AssOverrideParamProto {
/// ASS_ParameterOptional
int optional;
/// Type of this parameter
VariableDataType type;
/// Semantic type of this parameter
AssParameterClass classification;
};
struct AssOverrideTagProto {
/// Name of the tag, with slash
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std::string name;
/// Parameters to this tag
std::vector<AssOverrideParamProto> params;
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typedef std::vector<AssOverrideTagProto>::iterator iterator;
/// @brief Add a parameter to this tag prototype
/// @param type Data type of the parameter
/// @param classi Semantic type of the parameter
/// @param opt Situations in which this parameter is present
void AddParam(VariableDataType type, AssParameterClass classi = AssParameterClass::NORMAL, int opt = NOT_OPTIONAL) {
params.push_back(AssOverrideParamProto{opt, type, classi});
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}
/// @brief Convenience function for single-argument tags
/// @param name Name of the tag, with slash
/// @param type Data type of the parameter
/// @param classi Semantic type of the parameter
/// @param opt Situations in which this parameter is present
void Set(const char *name, VariableDataType type, AssParameterClass classi = AssParameterClass::NORMAL, int opt = NOT_OPTIONAL) {
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this->name = name;
params.push_back(AssOverrideParamProto{opt, type, classi});
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}
};
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static std::vector<AssOverrideTagProto> proto;
static void load_protos() {
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if (!proto.empty()) return;
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proto.resize(56);
int i = 0;
// Longer tag names must appear before shorter tag names
proto[0].Set("\\alpha", VariableDataType::TEXT, AssParameterClass::ALPHA); // \alpha&H<aa>&
proto[++i].Set("\\bord", VariableDataType::FLOAT, AssParameterClass::ABSOLUTE_SIZE); // \bord<depth>
proto[++i].Set("\\xbord", VariableDataType::FLOAT, AssParameterClass::ABSOLUTE_SIZE); // \xbord<depth>
proto[++i].Set("\\ybord", VariableDataType::FLOAT, AssParameterClass::ABSOLUTE_SIZE); // \ybord<depth>
proto[++i].Set("\\shad", VariableDataType::FLOAT, AssParameterClass::ABSOLUTE_SIZE); // \shad<depth>
proto[++i].Set("\\xshad", VariableDataType::FLOAT, AssParameterClass::ABSOLUTE_SIZE); // \xshad<depth>
proto[++i].Set("\\yshad", VariableDataType::FLOAT, AssParameterClass::ABSOLUTE_SIZE); // \yshad<depth>
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// \fade(<a1>,<a2>,<a3>,<t1>,<t2>,<t3>,<t4>)
i++;
proto[i].name = "\\fade";
proto[i].AddParam(VariableDataType::INT);
proto[i].AddParam(VariableDataType::INT);
proto[i].AddParam(VariableDataType::INT);
proto[i].AddParam(VariableDataType::INT, AssParameterClass::RELATIVE_TIME_START);
proto[i].AddParam(VariableDataType::INT, AssParameterClass::RELATIVE_TIME_START);
proto[i].AddParam(VariableDataType::INT, AssParameterClass::RELATIVE_TIME_START);
proto[i].AddParam(VariableDataType::INT, AssParameterClass::RELATIVE_TIME_START);
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// \move(<x1>,<y1>,<x2>,<y2>[,<t1>,<t2>])
i++;
proto[i].name = "\\move";
proto[i].AddParam(VariableDataType::FLOAT, AssParameterClass::ABSOLUTE_POS_X);
proto[i].AddParam(VariableDataType::FLOAT, AssParameterClass::ABSOLUTE_POS_Y);
proto[i].AddParam(VariableDataType::FLOAT, AssParameterClass::ABSOLUTE_POS_X);
proto[i].AddParam(VariableDataType::FLOAT, AssParameterClass::ABSOLUTE_POS_Y);
proto[i].AddParam(VariableDataType::INT, AssParameterClass::RELATIVE_TIME_START);
proto[i].AddParam(VariableDataType::INT, AssParameterClass::RELATIVE_TIME_START);
// If these are rearranged, keep rect clip and vector clip adjacent in this order
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// \clip(<x1>,<y1>,<x2>,<y2>)
i++;
proto[i].name = "\\clip";
proto[i].AddParam(VariableDataType::INT, AssParameterClass::ABSOLUTE_POS_X);
proto[i].AddParam(VariableDataType::INT, AssParameterClass::ABSOLUTE_POS_Y);
proto[i].AddParam(VariableDataType::INT, AssParameterClass::ABSOLUTE_POS_X);
proto[i].AddParam(VariableDataType::INT, AssParameterClass::ABSOLUTE_POS_Y);
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// \clip([<scale>,]<some drawings>)
i++;
proto[i].name = "\\clip";
proto[i].AddParam(VariableDataType::INT, AssParameterClass::NORMAL,OPTIONAL_2);
proto[i].AddParam(VariableDataType::TEXT, AssParameterClass::DRAWING);
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// \iclip(<x1>,<y1>,<x2>,<y2>)
i++;
proto[i].name = "\\iclip";
proto[i].AddParam(VariableDataType::INT, AssParameterClass::ABSOLUTE_POS_X);
proto[i].AddParam(VariableDataType::INT, AssParameterClass::ABSOLUTE_POS_Y);
proto[i].AddParam(VariableDataType::INT, AssParameterClass::ABSOLUTE_POS_X);
proto[i].AddParam(VariableDataType::INT, AssParameterClass::ABSOLUTE_POS_Y);
// \iclip([<scale>,]<some drawings>)
i++;
proto[i].name = "\\iclip";
proto[i].AddParam(VariableDataType::INT, AssParameterClass::NORMAL,OPTIONAL_2);
proto[i].AddParam(VariableDataType::TEXT, AssParameterClass::DRAWING);
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proto[++i].Set("\\fscx", VariableDataType::FLOAT, AssParameterClass::RELATIVE_SIZE_X); // \fscx<percent>
proto[++i].Set("\\fscy", VariableDataType::FLOAT, AssParameterClass::RELATIVE_SIZE_Y); // \fscy<percent>
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// \pos(<x>,<y>)
i++;
proto[i].name = "\\pos";
proto[i].AddParam(VariableDataType::FLOAT, AssParameterClass::ABSOLUTE_POS_X);
proto[i].AddParam(VariableDataType::FLOAT, AssParameterClass::ABSOLUTE_POS_Y);
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// \org(<x>,<y>)
i++;
proto[i].name = "\\org";
proto[i].AddParam(VariableDataType::INT, AssParameterClass::ABSOLUTE_POS_X);
proto[i].AddParam(VariableDataType::INT, AssParameterClass::ABSOLUTE_POS_Y);
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proto[++i].Set("\\pbo", VariableDataType::INT, AssParameterClass::ABSOLUTE_POS_Y); // \pbo<y>
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// \fad(<t1>,<t2>)
i++;
proto[i].name = "\\fad";
proto[i].AddParam(VariableDataType::INT, AssParameterClass::RELATIVE_TIME_START);
proto[i].AddParam(VariableDataType::INT, AssParameterClass::RELATIVE_TIME_END);
proto[++i].Set("\\fsp", VariableDataType::FLOAT, AssParameterClass::ABSOLUTE_SIZE); // \fsp<pixels>
proto[++i].Set("\\frx", VariableDataType::FLOAT); // \frx<degrees>
proto[++i].Set("\\fry", VariableDataType::FLOAT); // \fry<degrees>
proto[++i].Set("\\frz", VariableDataType::FLOAT); // \frz<degrees>
proto[++i].Set("\\fr", VariableDataType::FLOAT); // \fr<degrees>
proto[++i].Set("\\fax", VariableDataType::FLOAT); // \fax<factor>
proto[++i].Set("\\fay", VariableDataType::FLOAT); // \fay<factor>
proto[++i].Set("\\1c", VariableDataType::TEXT, AssParameterClass::COLOR); // \1c&H<bbggrr>&
proto[++i].Set("\\2c", VariableDataType::TEXT, AssParameterClass::COLOR); // \2c&H<bbggrr>&
proto[++i].Set("\\3c", VariableDataType::TEXT, AssParameterClass::COLOR); // \3c&H<bbggrr>&
proto[++i].Set("\\4c", VariableDataType::TEXT, AssParameterClass::COLOR); // \4c&H<bbggrr>&
proto[++i].Set("\\1a", VariableDataType::TEXT, AssParameterClass::ALPHA); // \1a&H<aa>&
proto[++i].Set("\\2a", VariableDataType::TEXT, AssParameterClass::ALPHA); // \2a&H<aa>&
proto[++i].Set("\\3a", VariableDataType::TEXT, AssParameterClass::ALPHA); // \3a&H<aa>&
proto[++i].Set("\\4a", VariableDataType::TEXT, AssParameterClass::ALPHA); // \4a&H<aa>&
proto[++i].Set("\\fe", VariableDataType::TEXT); // \fe<charset>
proto[++i].Set("\\ko", VariableDataType::INT, AssParameterClass::KARAOKE); // \ko<duration>
proto[++i].Set("\\kf", VariableDataType::INT, AssParameterClass::KARAOKE); // \kf<duration>
proto[++i].Set("\\be", VariableDataType::INT, AssParameterClass::ABSOLUTE_SIZE); // \be<strength>
proto[++i].Set("\\blur", VariableDataType::FLOAT, AssParameterClass::ABSOLUTE_SIZE); // \blur<strength>
proto[++i].Set("\\fn", VariableDataType::TEXT); // \fn<name>
proto[++i].Set("\\fs+", VariableDataType::FLOAT); // \fs+<size>
proto[++i].Set("\\fs-", VariableDataType::FLOAT); // \fs-<size>
proto[++i].Set("\\fs", VariableDataType::FLOAT, AssParameterClass::ABSOLUTE_SIZE); // \fs<size>
proto[++i].Set("\\an", VariableDataType::INT); // \an<alignment>
proto[++i].Set("\\c", VariableDataType::TEXT, AssParameterClass::COLOR); // \c&H<bbggrr>&
proto[++i].Set("\\b", VariableDataType::INT); // \b<0/1/weight>
proto[++i].Set("\\i", VariableDataType::BOOL); // \i<0/1>
proto[++i].Set("\\u", VariableDataType::BOOL); // \u<0/1>
proto[++i].Set("\\s", VariableDataType::BOOL); // \s<0/1>
proto[++i].Set("\\a", VariableDataType::INT); // \a<alignment>
proto[++i].Set("\\k", VariableDataType::INT, AssParameterClass::KARAOKE); // \k<duration>
proto[++i].Set("\\K", VariableDataType::INT, AssParameterClass::KARAOKE); // \K<duration>
proto[++i].Set("\\q", VariableDataType::INT); // \q<0-3>
proto[++i].Set("\\p", VariableDataType::INT); // \p<n>
proto[++i].Set("\\r", VariableDataType::TEXT); // \r[<name>]
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// \t([<t1>,<t2>,][<accel>,]<style modifiers>)
i++;
proto[i].name = "\\t";
proto[i].AddParam(VariableDataType::INT, AssParameterClass::RELATIVE_TIME_START,OPTIONAL_3 | OPTIONAL_4);
proto[i].AddParam(VariableDataType::INT, AssParameterClass::RELATIVE_TIME_START,OPTIONAL_3 | OPTIONAL_4);
proto[i].AddParam(VariableDataType::FLOAT, AssParameterClass::NORMAL,OPTIONAL_2 | OPTIONAL_4);
proto[i].AddParam(VariableDataType::BLOCK);
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}
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std::vector<std::string> tokenize(const std::string &text) {
std::vector<std::string> paramList;
paramList.reserve(6);
if (text.empty())
return paramList;
if (text[0] != '(') {
// There's just one parameter (because there's no parentheses)
// This means text is all our parameters
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paramList.emplace_back(boost::trim_copy(text));
return paramList;
}
// Ok, so there are parentheses used here, so there may be more than one parameter
// Enter fullscale parsing!
size_t i = 0, textlen = text.size();
int parDepth = 1;
while (i < textlen && parDepth > 0) {
// Just skip until next ',' or ')', whichever comes first
// (Next ')' is achieved when parDepth == 0)
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size_t start = ++i;
while (i < textlen && parDepth > 0) {
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char c = text[i];
// parDepth 1 is where we start, and the tag-level we're interested in parsing on
if (c == ',' && parDepth == 1) break;
if (c == '(') parDepth++;
else if (c == ')') {
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if (--parDepth == 0) {
// We just ate the parenthesis ending this parameter block
// Make sure it doesn't get included in the parameter text
break;
}
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}
i++;
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}
// i now points to the first character not member of this parameter
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paramList.emplace_back(boost::trim_copy(text.substr(start, i - start)));
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}
if (i+1 < textlen) {
// There's some additional garbage after the parentheses
// Just add it in for completeness
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paramList.emplace_back(text.begin() + i + 1, text.end());
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}
return paramList;
}
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void parse_parameters(AssOverrideTag *tag, const std::string &text, AssOverrideTagProto::iterator proto_it) {
tag->Clear();
// Tokenize text, attempting to find all parameters
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std::vector<std::string> paramList = tokenize(text);
size_t totalPars = paramList.size();
int parsFlag = 1 << (totalPars - 1); // Get optional parameters flag
// vector (i)clip is the second clip proto_ittype in the list
if ((tag->Name == "\\clip" || tag->Name == "\\iclip") && totalPars != 4) {
++proto_it;
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}
unsigned curPar = 0;
for (auto& curproto : proto_it->params) {
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// Create parameter
tag->Params.emplace_back(curproto.type, curproto.classification);
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// Check if it's optional and not present
if (!(curproto.optional & parsFlag) || curPar >= totalPars)
continue;
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tag->Params.back().Set(paramList[curPar++]);
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}
}
}
// From ass_dialogue.h
void AssDialogueBlockOverride::ParseTags() {
Tags.clear();
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int depth = 0;
size_t start = 0;
for (size_t i = 1; i < text.size(); ++i) {
if (depth > 0) {
if (text[i] == ')')
--depth;
}
else if (text[i] == '\\') {
Tags.emplace_back(text.substr(start, i - start));
start = i;
}
else if (text[i] == '(')
++depth;
}
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if (!text.empty())
Tags.emplace_back(text.substr(start));
}
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void AssDialogueBlockOverride::AddTag(std::string const& tag) {
Tags.emplace_back(tag);
}
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static std::string tag_str(AssOverrideTag const& t) { return t; }
std::string AssDialogueBlockOverride::GetText() {
text = "{" + join(Tags | transformed(tag_str), std::string()) + "}";
return text;
}
void AssDialogueBlockOverride::ProcessParameters(ProcessParametersCallback callback, void *userData) {
for (auto& tag : Tags) {
for (auto& par : tag.Params) {
if (par.omitted) continue;
callback(tag.Name, &par, userData);
// Go recursive if it's a block parameter
if (par.GetType() == VariableDataType::BLOCK)
par.Get<AssDialogueBlockOverride*>()->ProcessParameters(callback, userData);
}
}
}
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AssOverrideTag::AssOverrideTag(std::string const& text) {
SetText(text);
}
void AssOverrideTag::Clear() {
Params.clear();
Params.reserve(6);
valid = false;
}
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void AssOverrideTag::SetText(const std::string &text) {
load_protos();
for (auto cur = proto.begin(); cur != proto.end(); ++cur) {
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if (boost::starts_with(text, cur->name)) {
Name = cur->name;
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parse_parameters(this, text.substr(Name.size()), cur);
valid = true;
return;
}
}
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// Junk tag
Name = text;
valid = false;
}
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static std::string param_str(AssOverrideParameter const& p) { return p.Get<std::string>(); }
AssOverrideTag::operator std::string() const {
std::string result = Name;
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// Determine if it needs parentheses
bool parentheses = Params.size() > 1;
if (parentheses) result += "(";
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// Add parameters
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result += join(Params
| filtered([](AssOverrideParameter const& p) { return !p.omitted; } )
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| transformed(param_str),
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",");
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if (parentheses) result += ")";
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return result;
}