Hash :
72e5ad44
Author :
Date :
2014-08-02T21:12:12
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/*
* FTGL - OpenGL font library
*
* Copyright (c) 2001-2004 Henry Maddocks <ftgl@opengl.geek.nz>
* Copyright (c) 2008 Sam Hocevar <sam@hocevar.net>
* Copyright (c) 2008 Daniel Remenak <dtremenak@users.sourceforge.net>
*
* Permission is hereby granted, free of charge, to any person obtaining
* a copy of this software and associated documentation files (the
* "Software"), to deal in the Software without restriction, including
* without limitation the rights to use, copy, modify, merge, publish,
* distribute, sublicense, and/or sell copies of the Software, and to
* permit persons to whom the Software is furnished to do so, subject to
* the following conditions:
*
* The above copyright notice and this permission notice shall be
* included in all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
* IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY
* CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
* TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
* SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
*/
#include "config.h"
#include <ctype.h>
#include <wctype.h>
#include "FTInternals.h"
#include "FTUnicode.h"
#include "FTGlyphContainer.h"
#include "FTSimpleLayoutImpl.h"
//
// FTSimpleLayout
//
FTSimpleLayout::FTSimpleLayout() :
FTLayout(new FTSimpleLayoutImpl())
{}
FTSimpleLayout::~FTSimpleLayout()
{}
FTBBox FTSimpleLayout::BBox(const char *string, const int len, FTPoint pos)
{
return dynamic_cast<FTSimpleLayoutImpl*>(impl)->BBox(string, len, pos);
}
FTBBox FTSimpleLayout::BBox(const wchar_t *string, const int len, FTPoint pos)
{
return dynamic_cast<FTSimpleLayoutImpl*>(impl)->BBox(string, len, pos);
}
void FTSimpleLayout::Render(const char *string, const int len, FTPoint pos,
int renderMode)
{
return dynamic_cast<FTSimpleLayoutImpl*>(impl)->Render(string, len, pos,
renderMode);
}
void FTSimpleLayout::Render(const wchar_t* string, const int len, FTPoint pos,
int renderMode)
{
return dynamic_cast<FTSimpleLayoutImpl*>(impl)->Render(string, len, pos,
renderMode);
}
void FTSimpleLayout::SetFont(FTFont *fontInit)
{
dynamic_cast<FTSimpleLayoutImpl*>(impl)->currentFont = fontInit;
}
FTFont *FTSimpleLayout::GetFont()
{
return dynamic_cast<FTSimpleLayoutImpl*>(impl)->currentFont;
}
void FTSimpleLayout::SetLineLength(const float LineLength)
{
dynamic_cast<FTSimpleLayoutImpl*>(impl)->lineLength = LineLength;
}
float FTSimpleLayout::GetLineLength() const
{
return dynamic_cast<FTSimpleLayoutImpl*>(impl)->lineLength;
}
void FTSimpleLayout::SetAlignment(const FTGL::TextAlignment Alignment)
{
dynamic_cast<FTSimpleLayoutImpl*>(impl)->alignment = Alignment;
}
FTGL::TextAlignment FTSimpleLayout::GetAlignment() const
{
return dynamic_cast<FTSimpleLayoutImpl*>(impl)->alignment;
}
void FTSimpleLayout::SetLineSpacing(const float LineSpacing)
{
dynamic_cast<FTSimpleLayoutImpl*>(impl)->lineSpacing = LineSpacing;
}
float FTSimpleLayout::GetLineSpacing() const
{
return dynamic_cast<FTSimpleLayoutImpl*>(impl)->lineSpacing;
}
//
// FTSimpleLayoutImpl
//
FTSimpleLayoutImpl::FTSimpleLayoutImpl()
{
currentFont = NULL;
lineLength = 100.0f;
alignment = FTGL::ALIGN_LEFT;
lineSpacing = 1.0f;
}
template <typename T>
inline FTBBox FTSimpleLayoutImpl::BBoxI(const T* string, const int len,
FTPoint position)
{
FTBBox tmp;
WrapText(string, len, position, 0, &tmp);
return tmp;
}
FTBBox FTSimpleLayoutImpl::BBox(const char *string, const int len,
FTPoint position)
{
return BBoxI(string, len, position);
}
FTBBox FTSimpleLayoutImpl::BBox(const wchar_t *string, const int len,
FTPoint position)
{
return BBoxI(string, len, position);
}
template <typename T>
inline void FTSimpleLayoutImpl::RenderI(const T *string, const int len,
FTPoint position, int renderMode)
{
pen = FTPoint(0.0f, 0.0f);
WrapText(string, len, position, renderMode, NULL);
}
void FTSimpleLayoutImpl::Render(const char *string, const int len,
FTPoint position, int renderMode)
{
RenderI(string, len, position, renderMode);
}
void FTSimpleLayoutImpl::Render(const wchar_t* string, const int len,
FTPoint position, int renderMode)
{
RenderI(string, len, position, renderMode);
}
template <typename T>
inline void FTSimpleLayoutImpl::WrapTextI(const T *buf, const int len,
FTPoint position, int renderMode,
FTBBox *bounds)
{
FTUnicodeStringItr<T> breakItr(buf); // points to the last break character
FTUnicodeStringItr<T> lineStart(buf); // points to the line start
float nextStart = 0.0; // total width of the current line
float breakWidth = 0.0; // width of the line up to the last word break
float currentWidth = 0.0; // width of all characters on the current line
float prevWidth; // width of all characters but the current glyph
float wordLength = 0.0; // length of the block since the last break char
int charCount = 0; // number of characters so far on the line
int breakCharCount = 0; // number of characters before the breakItr
float glyphWidth, advance;
FTBBox glyphBounds;
// Reset the pen position
pen.Y(0);
// If we have bounds mark them invalid
if(bounds)
{
bounds->Invalidate();
}
// Scan the input for all characters that need output
FTUnicodeStringItr<T> prevItr(buf);
for (FTUnicodeStringItr<T> itr(buf); *itr; prevItr = itr++, charCount++)
{
// Find the width of the current glyph
glyphBounds = currentFont->BBox(itr.getBufferFromHere(), 1);
glyphWidth = glyphBounds.Upper().Xf() - glyphBounds.Lower().Xf();
advance = currentFont->Advance(itr.getBufferFromHere(), 1);
prevWidth = currentWidth;
// Compute the width of all glyphs up to the end of buf[i]
currentWidth = nextStart + glyphWidth;
// Compute the position of the next glyph
nextStart += advance;
// See if the current character is a space, a break or a regular character
if((currentWidth > lineLength) || (*itr == '\n'))
{
// A non whitespace character has exceeded the line length. Or a
// newline character has forced a line break. Output the last
// line and start a new line after the break character.
// If we have not yet found a break, break on the last character
if(breakItr == lineStart || (*itr == '\n'))
{
// Break on the previous character
breakItr = prevItr;
breakCharCount = charCount - 1;
breakWidth = prevWidth;
// None of the previous words will be carried to the next line
wordLength = 0;
// If the current character is a newline discard its advance
if(*itr == '\n') advance = 0;
}
float remainingWidth = lineLength - breakWidth;
// Render the current substring
FTUnicodeStringItr<T> breakChar = breakItr;
// move past the break character and don't count it on the next line either
++breakChar; --charCount;
// If the break character is a newline do not render it
if(*breakChar == '\n')
{
++breakChar; --charCount;
}
if(breakCharCount >= 0)
{
OutputWrapped(lineStart.getBufferFromHere(), breakCharCount,
//breakItr.getBufferFromHere() - lineStart.getBufferFromHere(),
position, renderMode, remainingWidth, bounds);
}
// Store the start of the next line
lineStart = breakChar;
// TODO: Is Height() the right value here?
pen -= FTPoint(0, currentFont->LineHeight() * lineSpacing);
// The current width is the width since the last break
nextStart = wordLength + advance;
wordLength += advance;
currentWidth = wordLength + advance;
// Reset the safe break for the next line
breakItr = lineStart;
charCount -= breakCharCount;
}
else if(iswspace(*itr))
{
// This is the last word break position
wordLength = 0;
breakItr = itr;
breakCharCount = charCount;
// Check to see if this is the first whitespace character in a run
if(buf == itr.getBufferFromHere() || !iswspace(*prevItr))
{
// Record the width of the start of the block
breakWidth = currentWidth;
}
}
else
{
wordLength += advance;
}
}
float remainingWidth = lineLength - currentWidth;
// Render any remaining text on the last line
// Disable justification for the last row
if(alignment == FTGL::ALIGN_JUSTIFY)
{
alignment = FTGL::ALIGN_LEFT;
OutputWrapped(lineStart.getBufferFromHere(), -1, position, renderMode,
remainingWidth, bounds);
alignment = FTGL::ALIGN_JUSTIFY;
}
else
{
OutputWrapped(lineStart.getBufferFromHere(), -1, position, renderMode,
remainingWidth, bounds);
}
}
void FTSimpleLayoutImpl::WrapText(const char *buf, const int len,
FTPoint position, int renderMode,
FTBBox *bounds)
{
WrapTextI(buf, len, position, renderMode, bounds);
}
void FTSimpleLayoutImpl::WrapText(const wchar_t* buf, const int len,
FTPoint position, int renderMode,
FTBBox *bounds)
{
WrapTextI(buf, len, position, renderMode, bounds);
}
template <typename T>
inline void FTSimpleLayoutImpl::OutputWrappedI(const T *buf, const int len,
FTPoint position, int renderMode,
const float remaining,
FTBBox *bounds)
{
float distributeWidth = 0.0;
// Align the text according as specified by Alignment
switch (alignment)
{
case FTGL::ALIGN_LEFT:
pen.X(0);
break;
case FTGL::ALIGN_CENTER:
pen.X(remaining / 2);
break;
case FTGL::ALIGN_RIGHT:
pen.X(remaining);
break;
case FTGL::ALIGN_JUSTIFY:
pen.X(0);
distributeWidth = remaining;
break;
}
// If we have bounds expand them by the line's bounds, otherwise render
// the line.
if(bounds)
{
FTBBox temp = currentFont->BBox(buf, len);
// Add the extra space to the upper x dimension
temp = FTBBox(temp.Lower() + pen,
temp.Upper() + pen + FTPoint(distributeWidth, 0));
// See if this is the first area to be added to the bounds
if(bounds->IsValid())
{
*bounds |= temp;
}
else
{
*bounds = temp;
}
}
else
{
RenderSpace(buf, len, position, renderMode, distributeWidth);
}
}
void FTSimpleLayoutImpl::OutputWrapped(const char *buf, const int len,
FTPoint position, int renderMode,
const float remaining, FTBBox *bounds)
{
OutputWrappedI(buf, len, position, renderMode, remaining, bounds);
}
void FTSimpleLayoutImpl::OutputWrapped(const wchar_t *buf, const int len,
FTPoint position, int renderMode,
const float remaining, FTBBox *bounds)
{
OutputWrappedI(buf, len, position, renderMode, remaining, bounds);
}
template <typename T>
inline void FTSimpleLayoutImpl::RenderSpaceI(const T *string, const int len,
FTPoint position, int renderMode,
const float extraSpace)
{
(void)position;
float space = 0.0;
// If there is space to distribute, count the number of spaces
if(extraSpace > 0.0)
{
int numSpaces = 0;
// Count the number of space blocks in the input
FTUnicodeStringItr<T> prevItr(string), itr(string);
for(int i = 0; ((len < 0) && *itr) || ((len >= 0) && (i <= len));
++i, prevItr = itr++)
{
// If this is the end of a space block, increment the counter
if((i > 0) && !iswspace(*itr) && iswspace(*prevItr))
{
numSpaces++;
}
}
space = extraSpace/numSpaces;
}
// Output all characters of the string
FTUnicodeStringItr<T> prevItr(string), itr(string);
for(int i = 0; ((len < 0) && *itr) || ((len >= 0) && (i <= len));
++i, prevItr = itr++)
{
// If this is the end of a space block, distribute the extra space
// inside it
if((i > 0) && !iswspace(*itr) && iswspace(*prevItr))
{
pen += FTPoint(space, 0);
}
pen = currentFont->Render(itr.getBufferFromHere(), 1, pen, FTPoint(), renderMode);
}
}
void FTSimpleLayoutImpl::RenderSpace(const char *string, const int len,
FTPoint position, int renderMode,
const float extraSpace)
{
RenderSpaceI(string, len, position, renderMode, extraSpace);
}
void FTSimpleLayoutImpl::RenderSpace(const wchar_t *string, const int len,
FTPoint position, int renderMode,
const float extraSpace)
{
RenderSpaceI(string, len, position, renderMode, extraSpace);
}