winamp/Src/external_dependencies/openmpt-trunk/mptrack/PatternFont.cpp

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2024-09-24 12:54:57 +00:00
/*
* PatternFont.cpp
* ---------------
* Purpose: Code for creating pattern font bitmaps
* Notes : (currently none)
* Authors: OpenMPT Devs
* The OpenMPT source code is released under the BSD license. Read LICENSE for more details.
*/
#include "stdafx.h"
#include "PatternFont.h"
#include "Mptrack.h"
#include "Mainfrm.h"
#include "TrackerSettings.h"
#include "../soundlib/Tables.h"
OPENMPT_NAMESPACE_BEGIN
//////////////////////////////////////////////
// Font Definitions
// Medium Font (Default)
static constexpr PATTERNFONT gDefaultPatternFont =
{
nullptr,
nullptr,
92,13, // Column Width & Height
0,0, // Clear location
130,8, // Space Location.
{20, 20, 24, 9, 15}, // Element Widths
{0, 0, 0, 0, 0}, // Padding pixels contained in element width
20,13, // Numbers 0-F (hex)
30,13, // Numbers 10-29 (dec)
64,26, // A-M#
78,26, // N-Z? // MEDIUM FONT !!!
0, 0,
{ 7, 5 }, 8, // Note & Octave Width
42,13, // Volume Column Effects
8,8,
-1,
8, // 8+7 = 15
-3, -1, 12,
1, // Margin for first digit of PC event parameter number
2, // Margin for first digit of PC event parameter value
1, // Margin for second digit of parameter
13, // Vertical spacing between letters in the bitmap
};
//////////////////////////////////////////////////
// Small Font
static constexpr PATTERNFONT gSmallPatternFont =
{
nullptr,
nullptr,
70,11, // Column Width & Height
92,0, // Clear location
130,8, // Space Location.
{16, 14, 18, 7, 11}, // Element Widths
{0, 0, 0, 0, 0}, // Padding pixels contained in element width
108,13, // Numbers 0-F (hex)
120,13, // Numbers 10-29 (dec)
142,26, // A-M#
150,26, // N-Z? // SMALL FONT !!!
92, 0, // Notes
{ 5, 5 }, 6, // Note & Octave Width
132,13, // Volume Column Effects
6,5,
-1,
6, // 8+7 = 15
-3, 1, 9, // InstrOfs + nInstrHiWidth
1, // Margin for first digit of PC event parameter number
2, // Margin for first digit of PC event parameter value
1, // Margin for second digit of parameter
13, // // Vertical spacing between letters in the bitmap
};
// NOTE: See also CViewPattern::DrawNote() when changing stuff here
// or adding new fonts - The custom tuning note names might require
// some additions there.
const PATTERNFONT *PatternFont::currentFont = nullptr;
static MODPLUGDIB customFontBitmap;
static MODPLUGDIB customFontBitmapASCII;
static void DrawChar(HDC hDC, WCHAR ch, int x, int y, int w, int h)
{
CRect rect(x, y, x + w, y + h);
::DrawTextW(hDC, &ch, 1, &rect, DT_CENTER | DT_VCENTER | DT_SINGLELINE | DT_NOPREFIX);
}
static void DrawChar(HDC hDC, CHAR ch, int x, int y, int w, int h)
{
CRect rect(x, y, x + w, y + h);
::DrawTextA(hDC, &ch, 1, &rect, DT_CENTER | DT_VCENTER | DT_SINGLELINE | DT_NOPREFIX);
}
#if MPT_CXX_AT_LEAST(20)
static void DrawChar(HDC hDC, char8_t ch8, int x, int y, int w, int h)
{
CRect rect(x, y, x + w, y + h);
CHAR ch = mpt::unsafe_char_convert<char>(ch8);
::DrawTextA(hDC, &ch, 1, &rect, DT_CENTER | DT_VCENTER | DT_SINGLELINE | DT_NOPREFIX);
}
#endif
template<typename char_t>
static void DrawString(HDC hDC, const char_t *text, int len, int x, int y, int w, int h)
{
for(int i = 0; i < len; i++)
{
DrawChar(hDC, text[i], x, y, w, h);
x += w;
}
}
void PatternFont::UpdateFont(HWND hwnd)
{
FontSetting font = TrackerSettings::Instance().patternFont;
const PATTERNFONT *builtinFont = nullptr;
if(font.name == PATTERNFONT_SMALL || font.name.empty())
{
builtinFont = &gSmallPatternFont;
} else if(font.name == PATTERNFONT_LARGE)
{
builtinFont = &gDefaultPatternFont;
}
if(builtinFont != nullptr && font.size < 1)
{
currentFont = builtinFont;
return;
}
static PATTERNFONT pf = { 0 };
currentFont = &pf;
static FontSetting previousFont;
if(previousFont == font)
{
// Nothing to do
return;
}
previousFont = font;
DeleteFontData();
pf.dib = &customFontBitmap;
pf.dibASCII = nullptr;
// Upscale built-in font?
if(builtinFont != nullptr)
{
// Copy and scale original 4-bit bitmap
LimitMax(font.size, 10);
font.size++;
customFontBitmap.bmiHeader = CMainFrame::bmpNotes->bmiHeader;
customFontBitmap.bmiHeader.biWidth *= font.size;
customFontBitmap.bmiHeader.biHeight *= font.size;
customFontBitmap.bmiHeader.biSizeImage = customFontBitmap.bmiHeader.biWidth * customFontBitmap.bmiHeader.biHeight / 2;
customFontBitmap.lpDibBits = new uint8[customFontBitmap.bmiHeader.biSizeImage];
// Upscale the image (ugly code ahead)
const uint8 *origPixels = CMainFrame::bmpNotes->lpDibBits;
uint8 *scaledPixels = customFontBitmap.lpDibBits;
const int bytesPerLine = customFontBitmap.bmiHeader.biWidth / 2, scaleBytes = bytesPerLine * font.size;
bool outPos = false;
for(int y = 0; y < CMainFrame::bmpNotes->bmiHeader.biHeight; y++, scaledPixels += scaleBytes - bytesPerLine)
{
for(int x = 0; x < CMainFrame::bmpNotes->bmiHeader.biWidth; x++)
{
uint8 pixel = *origPixels;
if(x % 2u == 0)
{
pixel >>= 4;
} else
{
pixel &= 0x0F;
origPixels++;
}
for(int scaleX = 0; scaleX < font.size; scaleX++)
{
if(!outPos)
{
for(int scaleY = 0; scaleY < scaleBytes; scaleY += bytesPerLine)
{
scaledPixels[scaleY] = pixel << 4;
}
} else
{
for(int scaleY = 0; scaleY < scaleBytes; scaleY += bytesPerLine)
{
scaledPixels[scaleY] |= pixel;
}
scaledPixels++;
}
outPos = !outPos;
}
}
}
pf.nWidth = (builtinFont->nWidth - 4) * font.size + 4;
pf.nHeight = builtinFont->nHeight * font.size;
pf.nClrX = builtinFont->nClrX * font.size;
pf.nClrY = builtinFont->nClrY * font.size;
pf.nSpaceX = builtinFont->nSpaceX * font.size;
pf.nSpaceY = builtinFont->nSpaceY * font.size;
for(std::size_t i = 0; i < std::size(pf.nEltWidths); i++)
{
pf.nEltWidths[i] = builtinFont->nEltWidths[i] * font.size;
pf.padding[i] = builtinFont->padding[i] * font.size;
}
pf.nNumX = builtinFont->nNumX * font.size;
pf.nNumY = builtinFont->nNumY * font.size;
pf.nNum10X = builtinFont->nNum10X * font.size;
pf.nNum10Y = builtinFont->nNum10Y * font.size;
pf.nAlphaAM_X = builtinFont->nAlphaAM_X * font.size;
pf.nAlphaAM_Y = builtinFont->nAlphaAM_Y * font.size;
pf.nAlphaNZ_X = builtinFont->nAlphaNZ_X * font.size;
pf.nAlphaNZ_Y = builtinFont->nAlphaNZ_Y * font.size;
pf.nNoteX = builtinFont->nNoteX * font.size;
pf.nNoteY = builtinFont->nNoteY * font.size;
pf.nNoteWidth[0] = builtinFont->nNoteWidth[0] * font.size;
pf.nNoteWidth[1] = builtinFont->nNoteWidth[1] * font.size;
pf.nOctaveWidth = builtinFont->nOctaveWidth * font.size;
pf.nVolX = builtinFont->nVolX * font.size;
pf.nVolY = builtinFont->nVolY * font.size;
pf.nVolCmdWidth = builtinFont->nVolCmdWidth * font.size;
pf.nVolHiWidth = builtinFont->nVolHiWidth * font.size;
pf.nCmdOfs = builtinFont->nCmdOfs * font.size;
pf.nParamHiWidth = builtinFont->nParamHiWidth * font.size;
pf.nInstrOfs = builtinFont->nInstrOfs * font.size;
pf.nInstr10Ofs = builtinFont->nInstr10Ofs * font.size;
pf.nInstrHiWidth = builtinFont->nInstrHiWidth * font.size;
pf.pcParamMargin = builtinFont->pcParamMargin * font.size;
pf.pcValMargin = builtinFont->pcValMargin * font.size;
pf.paramLoMargin = builtinFont->paramLoMargin * font.size;
pf.spacingY = builtinFont->spacingY * font.size;
// Create 4-pixel border
const int bmWidth2 = pf.dib->bmiHeader.biWidth / 2;
for(int y = 0, x = (customFontBitmap.bmiHeader.biHeight - pf.nClrY - pf.nHeight) * bmWidth2 + (pf.nClrX + pf.nWidth - 4) / 2; y < pf.nHeight; y++, x += bmWidth2)
{
pf.dib->lpDibBits[x] = 0xEC;
pf.dib->lpDibBits[x + 1] = 0xC4;
}
return;
}
// Create our own font!
CDC hDC;
hDC.CreateCompatibleDC(CDC::FromHandle(::GetDC(hwnd)));
// Point size to pixels
font.size = -MulDiv(font.size, Util::GetDPIy(hwnd), 720);
CFont gdiFont;
gdiFont.CreateFont(font.size, 0, 0, 0, font.flags[FontSetting::Bold] ? FW_BOLD : FW_NORMAL, font.flags[FontSetting::Italic] ? TRUE : FALSE, FALSE, FALSE, DEFAULT_CHARSET, OUT_RASTER_PRECIS, CLIP_DEFAULT_PRECIS, NONANTIALIASED_QUALITY, FIXED_PITCH | FF_DONTCARE, mpt::ToCString(font.name));
CFont *oldFont = hDC.SelectObject(&gdiFont);
CPoint pt = hDC.GetTextExtent(_T("W"));
const int charWidth = pt.x, charHeight = pt.y;
const int spacing = charWidth / 4;
const int width = charWidth * 12 + spacing * 2 + 4, height = charHeight * 21;
pf.nWidth = width; // Column Width & Height, including 4-pixels border
pf.nHeight = charHeight;
pf.nClrX = pf.nClrY = 0; // Clear (empty note) location
pf.nSpaceX = charWidth * 7; // White location (must be big enough)
pf.nSpaceY = charHeight;
pf.nEltWidths[0] = charWidth * 3; // Note
pf.padding[0] = 0;
pf.nEltWidths[1] = charWidth * 3 + spacing; // Instr
pf.padding[1] = spacing;
pf.nEltWidths[2] = charWidth * 3 + spacing; // Volume
pf.padding[2] = spacing;
pf.nEltWidths[3] = charWidth; // Command letter
pf.padding[3] = 0;
pf.nEltWidths[4] = charWidth * 2; // Command param
pf.padding[4] = 0;
pf.nNumX = charWidth * 3; // Vertically-oriented numbers 0x00-0x0F
pf.nNumY = charHeight;
pf.nNum10X = charWidth * 4; // Numbers 10-29
pf.nNum10Y = charHeight;
pf.nAlphaAM_X = charWidth * 6; // Letters A-M +#
pf.nAlphaAM_Y = charHeight * 2;
pf.nAlphaNZ_X = charWidth * 7; // Letters N-Z +?
pf.nAlphaNZ_Y = charHeight * 2;
pf.nNoteX = 0; // Notes ..., C-, C#, ...
pf.nNoteY = 0;
pf.nNoteWidth[0] = charWidth; // Total width of note (C#)
pf.nNoteWidth[1] = charWidth; // Total width of note (C#)
pf.nOctaveWidth = charWidth; // Octave Width
pf.nVolX = charWidth * 8; // Volume Column Effects
pf.nVolY = charHeight;
pf.nVolCmdWidth = charWidth; // Width of volume effect
pf.nVolHiWidth = charWidth; // Width of first character in volume parameter
pf.nCmdOfs = 0; // XOffset (-xxx) around the command letter
pf.nParamHiWidth = charWidth;
pf.nInstrOfs = -charWidth;
pf.nInstr10Ofs = 0;
pf.nInstrHiWidth = charWidth * 2;
pf.pcParamMargin = 0;
pf.pcValMargin = 0;
pf.paramLoMargin = 0; // Margin for second digit of parameter
pf.spacingY = charHeight;
{
pf.dib->bmiHeader.biSize = sizeof(BITMAPINFOHEADER);
pf.dib->bmiHeader.biWidth = ((width + 7) & ~7); // 4-byte alignment
pf.dib->bmiHeader.biHeight = -(int32)height;
pf.dib->bmiHeader.biSizeImage = pf.dib->bmiHeader.biWidth * height / 2;
pf.dib->bmiHeader.biPlanes = 1;
pf.dib->bmiHeader.biBitCount = 4;
pf.dib->bmiHeader.biCompression = BI_RGB;
pf.dib->lpDibBits = new uint8[pf.dib->bmiHeader.biSizeImage];
pf.dib->bmiColors[0] = rgb2quad(RGB(0x00, 0x00, 0x00));
pf.dib->bmiColors[15] = rgb2quad(RGB(0xFF, 0xFF, 0xFF));
uint8 *data = nullptr;
HBITMAP bitmap = ::CreateDIBSection(hDC, (BITMAPINFO *)&pf.dib->bmiHeader, DIB_RGB_COLORS, (void **)&data, nullptr, 0);
if(!bitmap)
{
hDC.SelectObject(oldFont);
gdiFont.DeleteObject();
hDC.DeleteDC();
currentFont = &gDefaultPatternFont;
return;
}
HGDIOBJ oldBitmap = hDC.SelectObject(bitmap);
hDC.FillSolidRect(0, 0, width - 4, height, RGB(0xFF, 0xFF, 0xFF));
hDC.SetTextColor(RGB(0x00, 0x00, 0x00));
hDC.SetBkColor(RGB(0xFF, 0xFF, 0xFF));
hDC.SetTextAlign(TA_TOP | TA_LEFT);
// Empty cells (dots - i-th bit set = dot in the i-th column of a cell)
const uint8 dots[5] = { 1 | 2 | 4, 2 | 4, 2 | 4, 1, 1 | 2 };
const auto dotStr = TrackerSettings::Instance().patternFontDot.Get();
auto dotChar = dotStr.empty() ? UC_(' ') : dotStr[0];
for(int cell = 0, offset = 0; cell < static_cast<int>(std::size(dots)); cell++)
{
uint8 dot = dots[cell];
for(int i = 0; dot != 0; i++)
{
if(dot & 1) DrawChar(hDC, dotChar, pf.nClrX + offset + i * charWidth, pf.nClrY, charWidth, charHeight);
dot >>= 1;
}
offset += pf.nEltWidths[cell];
}
// Notes
for(int i = 0; i < 12; i++)
{
DrawString(hDC, NoteNamesSharp[i], 2, pf.nNoteX, pf.nNoteY + (i + 1) * charHeight, charWidth, charHeight);
}
DrawString(hDC, "^^", 2, pf.nNoteX, pf.nNoteY + 13 * charHeight, charWidth, charHeight);
DrawString(hDC, "==", 2, pf.nNoteX, pf.nNoteY + 14 * charHeight, charWidth, charHeight);
DrawString(hDC, "PC", 2, pf.nNoteX, pf.nNoteY + 15 * charHeight, charWidth, charHeight);
DrawString(hDC, "PCs", 3, pf.nNoteX, pf.nNoteY + 16 * charHeight, charWidth, charHeight);
DrawString(hDC, "~~", 2, pf.nNoteX, pf.nNoteY + 17 * charHeight, charWidth, charHeight);
// Hex chars
const char hexChars[] = "0123456789ABCDEF";
for(int i = 0; i < 16; i++)
{
DrawChar(hDC, hexChars[i], pf.nNumX, pf.nNumY + i * charHeight, charWidth, charHeight);
}
// Double-digit numbers
for(int i = 0; i < 20; i++)
{
char s[2];
s[0] = char('1' + i / 10);
s[1] = char('0' + i % 10);
DrawString(hDC, s, 2, pf.nNum10X, pf.nNum10Y + i * charHeight, charWidth, charHeight);
}
// Volume commands
const char volEffects[]= " vpcdabuhlrgfe:o";
static_assert(mpt::array_size<decltype(volEffects)>::size - 1 == MAX_VOLCMDS);
for(int i = 0; i < MAX_VOLCMDS; i++)
{
DrawChar(hDC, volEffects[i], pf.nVolX, pf.nVolY + i * charHeight, charWidth, charHeight);
}
// Letters A-Z
for(int i = 0; i < 13; i++)
{
DrawChar(hDC, char('A' + i), pf.nAlphaAM_X, pf.nAlphaAM_Y + i * charHeight, charWidth, charHeight);
DrawChar(hDC, char('N' + i), pf.nAlphaNZ_X, pf.nAlphaNZ_Y + i * charHeight, charWidth, charHeight);
}
// Special chars
DrawChar(hDC, '#', pf.nAlphaAM_X, pf.nAlphaAM_Y + 13 * charHeight, charWidth, charHeight);
DrawChar(hDC, '?', pf.nAlphaNZ_X, pf.nAlphaNZ_Y + 13 * charHeight, charWidth, charHeight);
DrawChar(hDC, 'b', pf.nAlphaAM_X, pf.nAlphaAM_Y + 14 * charHeight, charWidth, charHeight);
DrawChar(hDC, '\\', pf.nAlphaNZ_X, pf.nAlphaNZ_Y + 14 * charHeight, charWidth, charHeight);
DrawChar(hDC, '-', pf.nAlphaAM_X, pf.nAlphaAM_Y + 15 * charHeight, charWidth, charHeight);
DrawChar(hDC, ':', pf.nAlphaNZ_X, pf.nAlphaNZ_Y + 15 * charHeight, charWidth, charHeight);
DrawChar(hDC, '+', pf.nAlphaAM_X, pf.nAlphaAM_Y + 16 * charHeight, charWidth, charHeight);
DrawChar(hDC, '*', pf.nAlphaNZ_X, pf.nAlphaNZ_Y + 16 * charHeight, charWidth, charHeight);
DrawChar(hDC, 'd', pf.nAlphaAM_X, pf.nAlphaAM_Y + 17 * charHeight, charWidth, charHeight);
::GdiFlush();
std::memcpy(pf.dib->lpDibBits, data, pf.dib->bmiHeader.biSizeImage);
// Create 4-pixel border
const int bmWidth2 = pf.dib->bmiHeader.biWidth / 2;
for(int y = 0, x = width / 2 - 2; y < height; y++, x += bmWidth2)
{
pf.dib->lpDibBits[x] = 0xEC;
pf.dib->lpDibBits[x + 1] = 0xC4;
}
hDC.SelectObject(oldBitmap);
DeleteBitmap(bitmap);
}
{
pf.dibASCII = &customFontBitmapASCII;
pf.dibASCII->bmiHeader.biSize = sizeof(BITMAPINFOHEADER);
pf.dibASCII->bmiHeader.biWidth = ((charWidth * 128 + 7) & ~7); // 4-byte alignment
pf.dibASCII->bmiHeader.biHeight = -(int32)charHeight;
pf.dibASCII->bmiHeader.biSizeImage = pf.dibASCII->bmiHeader.biWidth * charHeight / 2;
pf.dibASCII->bmiHeader.biPlanes = 1;
pf.dibASCII->bmiHeader.biBitCount = 4;
pf.dibASCII->bmiHeader.biCompression = BI_RGB;
pf.dibASCII->lpDibBits = new uint8[pf.dibASCII->bmiHeader.biSizeImage];
pf.dibASCII->bmiColors[0] = rgb2quad(RGB(0x00, 0x00, 0x00));
pf.dibASCII->bmiColors[15] = rgb2quad(RGB(0xFF, 0xFF, 0xFF));
uint8 *data = nullptr;
HBITMAP bitmap = ::CreateDIBSection(hDC, (BITMAPINFO *)&pf.dibASCII->bmiHeader, DIB_RGB_COLORS, (void **)&data, nullptr, 0);
if(!bitmap)
{
hDC.SelectObject(oldFont);
gdiFont.DeleteObject();
hDC.DeleteDC();
currentFont = &gDefaultPatternFont;
return;
}
HGDIOBJ oldBitmap = hDC.SelectObject(bitmap);
hDC.FillSolidRect(0, 0, pf.dibASCII->bmiHeader.biWidth, -pf.dibASCII->bmiHeader.biHeight, RGB(0xFF, 0xFF, 0xFF));
hDC.SetTextColor(RGB(0x00, 0x00, 0x00));
hDC.SetBkColor(RGB(0xFF, 0xFF, 0xFF));
hDC.SetTextAlign(TA_TOP | TA_LEFT);
for(uint32 c = 32; c < 128; ++c)
{
DrawChar(hDC, (char)(unsigned char)c, charWidth * c, 0, charWidth, charHeight);
}
::GdiFlush();
std::memcpy(pf.dibASCII->lpDibBits, data, pf.dibASCII->bmiHeader.biSizeImage);
hDC.SelectObject(oldBitmap);
DeleteBitmap(bitmap);
}
hDC.SelectObject(oldFont);
gdiFont.DeleteObject();
hDC.DeleteDC();
}
void PatternFont::DeleteFontData()
{
delete[] customFontBitmap.lpDibBits;
customFontBitmap.lpDibBits = nullptr;
delete[] customFontBitmapASCII.lpDibBits;
customFontBitmapASCII.lpDibBits = nullptr;
}
OPENMPT_NAMESPACE_END