Aegisub/aegisub/src/ass_override.cpp
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1. cd aegisub/
  2. svn mv *cpp *h src/
  3. svn mv Makefile.am MatroskaParser.c auto4_perldata.inc bitmaps boost \
     changelog.txt config gl include libosxutil libresrc md5.c msvc mythes.cxx \
     mythes.hxx res.rc src/
  4. cd ..
  5. svn mv FFmpegSource2/ INSTALL Makefile.am README  acinclude.m4 \
     autogen.sh automation/ bin build configure.in desktop dummy.txt lib \
     libass/ m4macros/ packages/ po/ scripts/ universalchardet/ aegisub/
  6. mkdir -p docs/wiki_convert
  7. svn add docs/wiki_convert
  8. cd docs
  9. svn mv aegisub_convert_docs.pl convert.bat output wiki_convert/

* See r2749 for full description.

Originally committed to SVN as r2752.
2009-03-08 08:30:39 +00:00

814 lines
26 KiB
C++

// Copyright (c) 2005, Rodrigo Braz Monteiro
// 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
//
// Website: http://aegisub.cellosoft.com
// Contact: mailto:zeratul@cellosoft.com
//
////////////
// Includes
#include "config.h"
#include "ass_dialogue.h"
#include "ass_override.h"
#include <wx/tokenzr.h>
#include <wx/log.h>
////////////////////// AssOverrideParameter //////////////////////
///////////////
// Constructor
AssOverrideParameter::AssOverrideParameter () {
classification = PARCLASS_NORMAL;
ommited = false;
}
//////////////
// Destructor
AssOverrideParameter::~AssOverrideParameter () {
DeleteValue();
}
////////
// Copy
void AssOverrideParameter::CopyFrom (const AssOverrideParameter &param) {
switch(param.GetType()) {
case VARDATA_INT: SetInt(param.AsInt()); break;
case VARDATA_FLOAT: SetFloat(param.AsFloat()); break;
case VARDATA_TEXT: SetText(param.AsText()); break;
case VARDATA_BOOL: SetBool(param.AsBool()); break;
case VARDATA_COLOUR: SetColour(param.AsColour()); break;
case VARDATA_BLOCK: SetBlock(param.AsBlock()); break;
default: DeleteValue();
}
classification = param.classification;
ommited = param.ommited;
}
void AssOverrideParameter::operator= (const AssOverrideParameter &param) {
CopyFrom(param);
}
////////////////////// AssDialogueBlockOverride //////////////////////
///////////////
// Constructor
AssDialogueBlockOverride::AssDialogueBlockOverride () {
}
//////////////
// Destructor
AssDialogueBlockOverride::~AssDialogueBlockOverride () {
for (size_t i=0;i<Tags.size();i++) {
delete Tags[i];
}
Tags.clear();
}
/////////////
// Read tags
void AssDialogueBlockOverride::ParseTags () {
// Clear current vector
for (size_t i=0;i<Tags.size();i++) {
delete Tags[i];
}
Tags.clear();
// Fix parenthesis matching
while (text.Freq(_T('(')) > text.Freq(_T(')'))) {
text += _T(")");
}
// Initialize tokenizer
wxStringTokenizer tkn(text,_T("\\"),wxTOKEN_RET_EMPTY_ALL);
wxString curTag;
if (text.StartsWith(_T("\\"))) curTag = _T("\\");
while (tkn.HasMoreTokens()) {
//curTag will always start with a backslash after first loop - see end of loop
curTag += tkn.GetNextToken();
if (curTag == _T("\\")) continue;
// Check for parenthesis matching
while (curTag.Freq(_T('(')) > curTag.Freq(_T(')'))) {
if (!tkn.HasMoreTokens()) {
wxLogWarning(_T("Unmatched parenthesis! Line contents: ") + parent->Text);
break;
}
curTag << _T("\\") << tkn.GetNextToken();
}
AssOverrideTag *newTag = new AssOverrideTag;
newTag->SetText(curTag);
Tags.push_back(newTag);
curTag = _T("\\");
}
}
///////////////////////////
// Get Text representation
wxString AssDialogueBlockOverride::GetText () {
text = _T("");
for (std::vector<AssOverrideTag*>::iterator cur=Tags.begin();cur!=Tags.end();cur++) {
text += (*cur)->ToString();
}
return text;
}
///////////////////////////////////
// Process parameters via callback
void AssDialogueBlockOverride::ProcessParameters(void (*callback)(wxString,int,AssOverrideParameter *,void *),void *userData) {
AssOverrideTag *curTag;
AssOverrideParameter *curPar;
// Find tags
for (std::vector<AssOverrideTag*>::iterator cur=Tags.begin();cur!=Tags.end();cur++) {
int n = 0;
curTag = *cur;
// Find parameters
for (std::vector<AssOverrideParameter*>::iterator curParam=curTag->Params.begin();curParam!=curTag->Params.end();curParam++) {
curPar = *curParam;
if (curPar->GetType() != VARDATA_NONE && curPar->ommited == false) {
// Do callback
(*callback)(curTag->Name,n,curPar,userData);
// Go recursive if it's a block parameter
//if (curPar->classification == VARDATA_BLOCK) {
if (curPar->GetType() == VARDATA_BLOCK) {
curPar->AsBlock()->ProcessParameters(callback,userData);
}
}
n++;
}
}
}
///////////////////////// AssOverrideParamProto //////////////////////////
///////////////
// Constructor
AssOverrideParamProto::AssOverrideParamProto (VariableDataType _type,int opt,ASS_ParameterClass classi) {
type = _type;
optional = opt;
classification = classi;
}
//////////////
// Destructor
AssOverrideParamProto::~AssOverrideParamProto() {
}
///////////////////////// AssOverrideTagProto //////////////////////////
///////////////
// Static vars
std::list<AssOverrideTagProto> AssOverrideTagProto::proto;
bool AssOverrideTagProto::loaded = false;
///////////////
// Constructor
AssOverrideTagProto::AssOverrideTagProto() {
}
//////////////
// Destructor
AssOverrideTagProto::~AssOverrideTagProto() {
}
///////////////////
// Load prototypes
void AssOverrideTagProto::LoadProtos () {
if (loaded) return;
loaded = true;
// \alpha
proto.push_back(AssOverrideTagProto());
proto.back().name = _T("\\alpha");
proto.back().params.push_back(AssOverrideParamProto(VARDATA_TEXT));
// \bord<depth>
proto.push_back(AssOverrideTagProto());
proto.back().name = _T("\\bord");
proto.back().params.push_back(AssOverrideParamProto(VARDATA_FLOAT,NOT_OPTIONAL,PARCLASS_ABSOLUTE_SIZE));
// \xbord<depth>
proto.push_back(AssOverrideTagProto());
proto.back().name = _T("\\xbord");
proto.back().params.push_back(AssOverrideParamProto(VARDATA_FLOAT,NOT_OPTIONAL,PARCLASS_ABSOLUTE_SIZE));
// \ybord<depth>
proto.push_back(AssOverrideTagProto());
proto.back().name = _T("\\ybord");
proto.back().params.push_back(AssOverrideParamProto(VARDATA_FLOAT,NOT_OPTIONAL,PARCLASS_ABSOLUTE_SIZE));
// \shad<depth>
proto.push_back(AssOverrideTagProto());
proto.back().name = _T("\\shad");
proto.back().params.push_back(AssOverrideParamProto(VARDATA_FLOAT,NOT_OPTIONAL,PARCLASS_ABSOLUTE_SIZE));
// \xshad<depth>
proto.push_back(AssOverrideTagProto());
proto.back().name = _T("\\xshad");
proto.back().params.push_back(AssOverrideParamProto(VARDATA_FLOAT,NOT_OPTIONAL,PARCLASS_ABSOLUTE_SIZE));
// \yshad<depth>
proto.push_back(AssOverrideTagProto());
proto.back().name = _T("\\yshad");
proto.back().params.push_back(AssOverrideParamProto(VARDATA_FLOAT,NOT_OPTIONAL,PARCLASS_ABSOLUTE_SIZE));
// \fade(<a1>,<a2>,<a3>,<t1>,<t2>,<t3>,<t4>)
proto.push_back(AssOverrideTagProto());
proto.back().name = _T("\\fade");
proto.back().params.push_back(AssOverrideParamProto(VARDATA_INT));
proto.back().params.push_back(AssOverrideParamProto(VARDATA_INT));
proto.back().params.push_back(AssOverrideParamProto(VARDATA_INT));
proto.back().params.push_back(AssOverrideParamProto(VARDATA_INT,NOT_OPTIONAL,PARCLASS_RELATIVE_TIME_START));
proto.back().params.push_back(AssOverrideParamProto(VARDATA_INT,NOT_OPTIONAL,PARCLASS_RELATIVE_TIME_START));
proto.back().params.push_back(AssOverrideParamProto(VARDATA_INT,NOT_OPTIONAL,PARCLASS_RELATIVE_TIME_START));
proto.back().params.push_back(AssOverrideParamProto(VARDATA_INT,NOT_OPTIONAL,PARCLASS_RELATIVE_TIME_START));
// \move(<x1>,<y1>,<x2>,<y2>[,<t1>,<t2>])
proto.push_back(AssOverrideTagProto());
proto.back().name = _T("\\move");
proto.back().params.push_back(AssOverrideParamProto(VARDATA_FLOAT,NOT_OPTIONAL,PARCLASS_ABSOLUTE_POS_X));
proto.back().params.push_back(AssOverrideParamProto(VARDATA_FLOAT,NOT_OPTIONAL,PARCLASS_ABSOLUTE_POS_Y));
proto.back().params.push_back(AssOverrideParamProto(VARDATA_FLOAT,NOT_OPTIONAL,PARCLASS_ABSOLUTE_POS_X));
proto.back().params.push_back(AssOverrideParamProto(VARDATA_FLOAT,NOT_OPTIONAL,PARCLASS_ABSOLUTE_POS_Y));
proto.back().params.push_back(AssOverrideParamProto(VARDATA_INT,OPTIONAL_6,PARCLASS_RELATIVE_TIME_START));
proto.back().params.push_back(AssOverrideParamProto(VARDATA_INT,OPTIONAL_6,PARCLASS_RELATIVE_TIME_START));
// \clip(<x1>,<y1>,<x2>,<y2>)
proto.push_back(AssOverrideTagProto());
proto.back().name = _T("\\clip");
proto.back().params.push_back(AssOverrideParamProto(VARDATA_INT,NOT_OPTIONAL,PARCLASS_ABSOLUTE_POS_X));
proto.back().params.push_back(AssOverrideParamProto(VARDATA_INT,NOT_OPTIONAL,PARCLASS_ABSOLUTE_POS_Y));
proto.back().params.push_back(AssOverrideParamProto(VARDATA_INT,NOT_OPTIONAL,PARCLASS_ABSOLUTE_POS_X));
proto.back().params.push_back(AssOverrideParamProto(VARDATA_INT,NOT_OPTIONAL,PARCLASS_ABSOLUTE_POS_Y));
// \clip([<scale>,]<some drawings>)
proto.push_back(AssOverrideTagProto());
proto.back().name = _T("\\clip");
proto.back().params.push_back(AssOverrideParamProto(VARDATA_INT,OPTIONAL_2,PARCLASS_NORMAL));
proto.back().params.push_back(AssOverrideParamProto(VARDATA_TEXT,NOT_OPTIONAL,PARCLASS_DRAWING));
// \iclip(<x1>,<y1>,<x2>,<y2>)
proto.push_back(AssOverrideTagProto());
proto.back().name = _T("\\iclip");
proto.back().params.push_back(AssOverrideParamProto(VARDATA_INT,NOT_OPTIONAL,PARCLASS_ABSOLUTE_POS_X));
proto.back().params.push_back(AssOverrideParamProto(VARDATA_INT,NOT_OPTIONAL,PARCLASS_ABSOLUTE_POS_Y));
proto.back().params.push_back(AssOverrideParamProto(VARDATA_INT,NOT_OPTIONAL,PARCLASS_ABSOLUTE_POS_X));
proto.back().params.push_back(AssOverrideParamProto(VARDATA_INT,NOT_OPTIONAL,PARCLASS_ABSOLUTE_POS_Y));
// \iclip([<scale>,]<some drawings>)
proto.push_back(AssOverrideTagProto());
proto.back().name = _T("\\iclip");
proto.back().params.push_back(AssOverrideParamProto(VARDATA_INT,OPTIONAL_2,PARCLASS_NORMAL));
proto.back().params.push_back(AssOverrideParamProto(VARDATA_TEXT,NOT_OPTIONAL,PARCLASS_DRAWING));
// \fscx<percent>
proto.push_back(AssOverrideTagProto());
proto.back().name = _T("\\fscx");
proto.back().params.push_back(AssOverrideParamProto(VARDATA_FLOAT,NOT_OPTIONAL,PARCLASS_RELATIVE_SIZE_X));
// \fscy<percent>
proto.push_back(AssOverrideTagProto());
proto.back().name = _T("\\fscy");
proto.back().params.push_back(AssOverrideParamProto(VARDATA_FLOAT,NOT_OPTIONAL,PARCLASS_RELATIVE_SIZE_Y));
// \pos(<x>,<y>)
proto.push_back(AssOverrideTagProto());
proto.back().name = _T("\\pos");
proto.back().params.push_back(AssOverrideParamProto(VARDATA_FLOAT,NOT_OPTIONAL,PARCLASS_ABSOLUTE_POS_X));
proto.back().params.push_back(AssOverrideParamProto(VARDATA_FLOAT,NOT_OPTIONAL,PARCLASS_ABSOLUTE_POS_Y));
// \org(<x>,<y>)
proto.push_back(AssOverrideTagProto());
proto.back().name = _T("\\org");
proto.back().params.push_back(AssOverrideParamProto(VARDATA_INT,NOT_OPTIONAL,PARCLASS_ABSOLUTE_POS_X));
proto.back().params.push_back(AssOverrideParamProto(VARDATA_INT,NOT_OPTIONAL,PARCLASS_ABSOLUTE_POS_Y));
// \pbo<y>
proto.push_back(AssOverrideTagProto());
proto.back().name = _T("\\pbo");
proto.back().params.push_back(AssOverrideParamProto(VARDATA_INT,NOT_OPTIONAL,PARCLASS_ABSOLUTE_POS_Y));
// \fad(<t1>,<t2>)
proto.push_back(AssOverrideTagProto());
proto.back().name = _T("\\fad");
proto.back().params.push_back(AssOverrideParamProto(VARDATA_INT,NOT_OPTIONAL,PARCLASS_RELATIVE_TIME_START));
proto.back().params.push_back(AssOverrideParamProto(VARDATA_INT,NOT_OPTIONAL,PARCLASS_RELATIVE_TIME_END));
// \fsp<pixels>
proto.push_back(AssOverrideTagProto());
proto.back().name = _T("\\fsp");
proto.back().params.push_back(AssOverrideParamProto(VARDATA_FLOAT,NOT_OPTIONAL,PARCLASS_ABSOLUTE_SIZE));
// \frx<degrees>
proto.push_back(AssOverrideTagProto());
proto.back().name = _T("\\frx");
proto.back().params.push_back(AssOverrideParamProto(VARDATA_FLOAT,NOT_OPTIONAL,PARCLASS_NORMAL));
// \fry<degrees>
proto.push_back(AssOverrideTagProto());
proto.back().name = _T("\\fry");
proto.back().params.push_back(AssOverrideParamProto(VARDATA_FLOAT,NOT_OPTIONAL,PARCLASS_NORMAL));
// \frz<degrees>
proto.push_back(AssOverrideTagProto());
proto.back().name = _T("\\frz");
proto.back().params.push_back(AssOverrideParamProto(VARDATA_FLOAT,NOT_OPTIONAL,PARCLASS_NORMAL));
// \fr<degrees>
proto.push_back(AssOverrideTagProto());
proto.back().name = _T("\\fr");
proto.back().params.push_back(AssOverrideParamProto(VARDATA_FLOAT,NOT_OPTIONAL,PARCLASS_NORMAL));
// \fax<factor>
proto.push_back(AssOverrideTagProto());
proto.back().name = _T("\\fax");
proto.back().params.push_back(AssOverrideParamProto(VARDATA_FLOAT,NOT_OPTIONAL,PARCLASS_NORMAL));
// \fay<factor>
proto.push_back(AssOverrideTagProto());
proto.back().name = _T("\\fay");
proto.back().params.push_back(AssOverrideParamProto(VARDATA_FLOAT,NOT_OPTIONAL,PARCLASS_NORMAL));
// \1c&H<bbggrr>&
proto.push_back(AssOverrideTagProto());
proto.back().name = _T("\\1c");
proto.back().params.push_back(AssOverrideParamProto(VARDATA_TEXT,NOT_OPTIONAL,PARCLASS_NORMAL));
// \2c&H<bbggrr>&
proto.push_back(AssOverrideTagProto());
proto.back().name = _T("\\2c");
proto.back().params.push_back(AssOverrideParamProto(VARDATA_TEXT,NOT_OPTIONAL,PARCLASS_NORMAL));
// \3c&H<bbggrr>&
proto.push_back(AssOverrideTagProto());
proto.back().name = _T("\\3c");
proto.back().params.push_back(AssOverrideParamProto(VARDATA_TEXT,NOT_OPTIONAL,PARCLASS_NORMAL));
// \4c&H<bbggrr>&
proto.push_back(AssOverrideTagProto());
proto.back().name = _T("\\4c");
proto.back().params.push_back(AssOverrideParamProto(VARDATA_TEXT,NOT_OPTIONAL,PARCLASS_NORMAL));
// \1a&H<aa>&
proto.push_back(AssOverrideTagProto());
proto.back().name = _T("\\1a");
proto.back().params.push_back(AssOverrideParamProto(VARDATA_TEXT,NOT_OPTIONAL,PARCLASS_NORMAL));
// \2a&H<aa>&
proto.push_back(AssOverrideTagProto());
proto.back().name = _T("\\2a");
proto.back().params.push_back(AssOverrideParamProto(VARDATA_TEXT,NOT_OPTIONAL,PARCLASS_NORMAL));
// \3a&H<aa>&
proto.push_back(AssOverrideTagProto());
proto.back().name = _T("\\3a");
proto.back().params.push_back(AssOverrideParamProto(VARDATA_TEXT,NOT_OPTIONAL,PARCLASS_NORMAL));
// \4a&H<aa>&
proto.push_back(AssOverrideTagProto());
proto.back().name = _T("\\4a");
proto.back().params.push_back(AssOverrideParamProto(VARDATA_TEXT,NOT_OPTIONAL,PARCLASS_NORMAL));
// \fe<charset>
proto.push_back(AssOverrideTagProto());
proto.back().name = _T("\\fe");
proto.back().params.push_back(AssOverrideParamProto(VARDATA_TEXT,NOT_OPTIONAL,PARCLASS_NORMAL));
// \ko<duration>
proto.push_back(AssOverrideTagProto());
proto.back().name = _T("\\ko");
proto.back().params.push_back(AssOverrideParamProto(VARDATA_INT,NOT_OPTIONAL,PARCLASS_KARAOKE));
// \kf<duration>
proto.push_back(AssOverrideTagProto());
proto.back().name = _T("\\kf");
proto.back().params.push_back(AssOverrideParamProto(VARDATA_INT,NOT_OPTIONAL,PARCLASS_KARAOKE));
// \be<strength>
proto.push_back(AssOverrideTagProto());
proto.back().name = _T("\\be");
proto.back().params.push_back(AssOverrideParamProto(VARDATA_INT,NOT_OPTIONAL,PARCLASS_NORMAL));
// \blur<strength>
proto.push_back(AssOverrideTagProto());
proto.back().name = _T("\\blur");
proto.back().params.push_back(AssOverrideParamProto(VARDATA_FLOAT,NOT_OPTIONAL,PARCLASS_NORMAL));
// \fn<name>
proto.push_back(AssOverrideTagProto());
proto.back().name = _T("\\fn");
proto.back().params.push_back(AssOverrideParamProto(VARDATA_TEXT,NOT_OPTIONAL,PARCLASS_NORMAL));
// \fs<size>
proto.push_back(AssOverrideTagProto());
proto.back().name = _T("\\fs");
proto.back().params.push_back(AssOverrideParamProto(VARDATA_FLOAT,NOT_OPTIONAL,PARCLASS_ABSOLUTE_SIZE));
// \an<alignment>
proto.push_back(AssOverrideTagProto());
proto.back().name = _T("\\an");
proto.back().params.push_back(AssOverrideParamProto(VARDATA_INT,NOT_OPTIONAL,PARCLASS_NORMAL));
// \c&H<bbggrr>&
proto.push_back(AssOverrideTagProto());
proto.back().name = _T("\\c");
proto.back().params.push_back(AssOverrideParamProto(VARDATA_TEXT,NOT_OPTIONAL,PARCLASS_NORMAL));
// \b<0/1/weight>
proto.push_back(AssOverrideTagProto());
proto.back().name = _T("\\b");
proto.back().params.push_back(AssOverrideParamProto(VARDATA_INT,OPTIONAL_1,PARCLASS_NORMAL));
proto.back().params.back().defaultValue.SetBool(false);
// \i<0/1>
proto.push_back(AssOverrideTagProto());
proto.back().name = _T("\\i");
proto.back().params.push_back(AssOverrideParamProto(VARDATA_BOOL,OPTIONAL_1,PARCLASS_NORMAL));
proto.back().params.back().defaultValue.SetBool(false);
// \u<0/1>
proto.push_back(AssOverrideTagProto());
proto.back().name = _T("\\u");
proto.back().params.push_back(AssOverrideParamProto(VARDATA_BOOL,OPTIONAL_1,PARCLASS_NORMAL));
proto.back().params.back().defaultValue.SetBool(false);
// \s<0/1>
proto.push_back(AssOverrideTagProto());
proto.back().name = _T("\\s");
proto.back().params.push_back(AssOverrideParamProto(VARDATA_BOOL,OPTIONAL_1,PARCLASS_NORMAL));
proto.back().params.back().defaultValue.SetBool(false);
// \a<alignment>
proto.push_back(AssOverrideTagProto());
proto.back().name = _T("\\a");
proto.back().params.push_back(AssOverrideParamProto(VARDATA_INT,NOT_OPTIONAL,PARCLASS_NORMAL));
// \k<duration>
proto.push_back(AssOverrideTagProto());
proto.back().name = _T("\\k");
proto.back().params.push_back(AssOverrideParamProto(VARDATA_INT,NOT_OPTIONAL,PARCLASS_KARAOKE));
// \K<duration>
proto.push_back(AssOverrideTagProto());
proto.back().name = _T("\\K");
proto.back().params.push_back(AssOverrideParamProto(VARDATA_INT,NOT_OPTIONAL,PARCLASS_KARAOKE));
// \q<0-3>
proto.push_back(AssOverrideTagProto());
proto.back().name = _T("\\q");
proto.back().params.push_back(AssOverrideParamProto(VARDATA_INT,NOT_OPTIONAL,PARCLASS_NORMAL));
// \p<n>
proto.push_back(AssOverrideTagProto());
proto.back().name = _T("\\p");
proto.back().params.push_back(AssOverrideParamProto(VARDATA_INT,NOT_OPTIONAL,PARCLASS_NORMAL));
// \r[<name>]
proto.push_back(AssOverrideTagProto());
proto.back().name = _T("\\r");
proto.back().params.push_back(AssOverrideParamProto(VARDATA_TEXT,OPTIONAL_1,PARCLASS_NORMAL));
// \t([<t1>,<t2>,][<accel>,]<style modifiers>)
proto.push_back(AssOverrideTagProto());
proto.back().name = _T("\\t");
proto.back().params.push_back(AssOverrideParamProto(VARDATA_INT,OPTIONAL_3 | OPTIONAL_4,PARCLASS_RELATIVE_TIME_START));
proto.back().params.push_back(AssOverrideParamProto(VARDATA_INT,OPTIONAL_3 | OPTIONAL_4,PARCLASS_RELATIVE_TIME_START));
proto.back().params.push_back(AssOverrideParamProto(VARDATA_FLOAT,OPTIONAL_2 | OPTIONAL_4,PARCLASS_NORMAL));
proto.back().params.push_back(AssOverrideParamProto(VARDATA_BLOCK,NOT_OPTIONAL,PARCLASS_NORMAL));
}
//////////////////////// AssOverrideTag //////////////////////////
///////////////
// Constructor
AssOverrideTag::AssOverrideTag () {
valid = false;
}
//////////////
// Destructor
AssOverrideTag::~AssOverrideTag () {
Clear();
}
/////////
// Clear
void AssOverrideTag::Clear() {
for (std::vector<AssOverrideParameter*>::iterator cur=Params.begin();cur!=Params.end();cur++) {
delete *cur;
}
Params.clear();
valid = false;
}
////////////////////////////
// Parses text and sets tag
void AssOverrideTag::SetText (const wxString &text) {
// Determine name
Name = _T("");
AssOverrideTagProto *proto;
for (std::list<AssOverrideTagProto>::iterator cur=AssOverrideTagProto::proto.begin();cur!=AssOverrideTagProto::proto.end();cur++) {
proto = &(*cur);
if (text.Left(proto->name.length()) == proto->name) {
Name = proto->name;
break;
}
}
// Set tag name
if (!Name.empty()) {
ParseParameters(text.Mid(Name.length()));
valid = true;
}
// Junk tag
else {
Name = text;
valid = false;
}
}
/////////////////////////
// Checks if it is valid
bool AssOverrideTag::IsValid() {
return valid;
}
/////////////////////
// Parses parameters
void AssOverrideTag::ParseParameters(const wxString &text) {
// Clear first
Clear();
// text is all text following the name until the next \ or the end of the override block
// Tokenize text, attempting to find all parameters
wxArrayString paramList;
wxString work;
{
if (text.IsEmpty() || text[0] != _T('(')) {
// There's just one (or none at all) parameter (because there's no parantheses)
// This means text is all our parameters
wxString param(text);
paramList.Add(param.Trim(true).Trim(false));
// Only using goto here to avoid yet another nested block (keeps the code cleaner!)
goto end_tokenizing;
}
// Ok, so there are parantheses used here, so there may be more than one parameter
// Enter fullscale parsing!
size_t i = 0, textlen = text.Length();
size_t start = 0;
int parDepth = 1;
while (i < textlen && parDepth > 0) {
// Just skip until next ',' or ')', whichever comes first
// (Next ')' is achieved when parDepth == 0)
start = ++i;
while (i < textlen && parDepth > 0) {
if (text[i] == _T('(')) parDepth++;
if (text[i] == _T(')')) parDepth--;
// parDepth 1 is where we start, and the tag-level we're interested in parsing on
if (text[i] == _T(',') && parDepth == 1) break;
if (parDepth < 0) {
wxLogWarning(_T("Unmatched parenthesis near '%s'!\nTag-parsing incomplete."), text.SubString(i, 10).c_str());
goto end_tokenizing;
}
if (parDepth == 0) {
// We just ate the paranthesis ending this parameter block
// Make sure it doesn't get included in the parameter text
break;
}
i++;
}
// i now points to the first character not member of this parameter
work = text.SubString(start, i-1);
work.Trim(true).Trim(false);
paramList.Add(work);
//wxLogDebug(_T("Got parameter: %s"), work.c_str());
}
if (i+1 < textlen) {
// There's some additional garbage after the parantheses
// Just add it in for completeness
paramList.Add(text.Mid(i+1));
}
}
// This label is only gone to from inside the previous block, if the tokenizing needs to end early
end_tokenizing:
int curPar = 0;
size_t totalPars = paramList.GetCount();
// Get optional parameters flag
ASS_ParameterOptional parsFlag = OPTIONAL_0;
switch (totalPars) {
case 1: parsFlag = OPTIONAL_1; break;
case 2: parsFlag = OPTIONAL_2; break;
case 3: parsFlag = OPTIONAL_3; break;
case 4: parsFlag = OPTIONAL_4; break;
case 5: parsFlag = OPTIONAL_5; break;
case 6: parsFlag = OPTIONAL_6; break;
case 7: parsFlag = OPTIONAL_7; break;
}
// Find prototype
bool clipOnce = true, iclipOnce = true;
AssOverrideTagProto *proto = NULL;
for (std::list<AssOverrideTagProto>::iterator cur=AssOverrideTagProto::proto.begin();cur!=AssOverrideTagProto::proto.end();cur++) {
if (Name == (*cur).name) {
if (Name == _T("\\clip") && totalPars != 4 && clipOnce) {
clipOnce = false;
continue;
}
if (Name == _T("\\iclip") && totalPars != 4 && iclipOnce) {
iclipOnce = false;
continue;
}
proto = &(*cur);
break;
}
}
if (proto == NULL) {
throw _T("Couldn't find tag prototype while parsing.");
}
// Get parameters
size_t n=0;
wxString curtok = _T("");
if (curPar < (signed)totalPars) {
curtok = paramList[curPar];
curPar++;
}
// For each parameter
while (n < proto->params.size()) {
AssOverrideParamProto *curproto = &proto->params[n];
bool isDefault = false;
n++;
// Create parameter
AssOverrideParameter *newparam = new AssOverrideParameter;
// Check if it's optional and not set (set to default)
if (!(curproto->optional & parsFlag)) {
if (curproto->defaultValue.GetType() != VARDATA_NONE) {
isDefault = true;
newparam->CopyFrom(curproto->defaultValue);
}
newparam->ommited = true;
// This parameter doesn't really count against the number of parsed parameters,
// since it's left out. Don't count it.
curPar--;
}
if (isDefault == false) {
wxChar firstChar = curtok[0];
bool notAuto4 = firstChar != _T('!') && firstChar != _T('$') && firstChar != _T('%');
// Determine parameter type and set value
switch (curproto->type) {
case VARDATA_INT: {
if (notAuto4) {
long temp = 0;
curtok.ToLong(&temp);
newparam->SetInt(temp);
}
else newparam->SetText(curtok);
break;
}
case VARDATA_FLOAT: {
if (notAuto4) {
double temp = 0.0;
curtok.ToDouble(&temp);
newparam->SetFloat(temp);
}
else newparam->SetText(curtok);
break;
}
case VARDATA_TEXT: {
newparam->SetText(curtok);
break;
}
case VARDATA_BOOL: {
if (notAuto4) {
long temp = false;
curtok.ToLong(&temp);
newparam->SetBool(temp != 0);
}
else newparam->SetText(curtok);
break;
}
case VARDATA_BLOCK: {
AssDialogueBlockOverride *temp = new AssDialogueBlockOverride;
temp->text = curtok;
temp->ParseTags();
newparam->SetBlock(temp);
break;
}
default: break;
}
// Get next actual parameter
if (curPar < (signed)totalPars) {
// Unless this parameter was omitted (in which case the token shouldn't be eaten)
if (!newparam->ommited) {
curtok = paramList[curPar];
}
curPar++;
}
else curtok = _T("");
}
// Add to list
newparam->classification = curproto->classification;
Params.push_back(newparam);
}
}
//////////////
// Get string
wxString AssOverrideTag::ToString() {
// Start with name
wxString result = Name;
// Determine if it needs parentheses
bool parenthesis = false;
if (Name == _T("\\t") ||
Name == _T("\\pos") ||
Name == _T("\\fad") ||
Name == _T("\\org") ||
Name == _T("\\clip") ||
Name == _T("\\iclip") ||
Name == _T("\\move") ||
Name == _T("\\fade")) parenthesis = true;
if (parenthesis) result += _T("(");
// Add parameters
int n = 0;
for (std::vector<AssOverrideParameter*>::iterator cur=Params.begin();cur!=Params.end();cur++) {
if ((*cur)->GetType() != VARDATA_NONE && (*cur)->ommited == false) {
result += (*cur)->AsText();
result += _T(",");
n++;
}
}
if (n > 0) result = result.Left(result.Length()-1);
// Finish
if (parenthesis) result += _T(")");
return result;
}