mirror of
https://github.com/CTCaer/RetroArch.git
synced 2024-12-26 04:36:01 +00:00
472 lines
16 KiB
C++
472 lines
16 KiB
C++
/* RetroArch - A frontend for libretro.
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* Copyright (C) 2010-2014 - Hans-Kristian Arntzen
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* Copyright (C) 2011-2014 - Daniel De Matteis
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*
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* RetroArch is free software: you can redistribute it and/or modify it under the terms
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* of the GNU General Public License as published by the Free Software Found-
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* ation, either version 3 of the License, or (at your option) any later version.
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*
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* RetroArch is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY;
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* without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
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* PURPOSE. See the GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License along with RetroArch.
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* If not, see <http://www.gnu.org/licenses/>.
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*/
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#include <xtl.h>
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#include "d3d_font.h"
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#include "../gfx_common.h"
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#include "../../general.h"
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#include "../../xdk/xdk_resources.h"
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#define FONT_SCALE ((g_extern.lifecycle_state & (1ULL << MODE_MENU_HD)) ? 2 : 1)
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typedef struct GLYPH_ATTR
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{
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unsigned short tu1, tv1, tu2, tv2; // Texture coordinates for the image
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short wOffset; // Pixel offset for glyph start
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short wWidth; // Pixel width of the glyph
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short wAdvance; // Pixels to advance after the glyph
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unsigned short wMask;
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} GLYPH_ATTR;
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typedef struct
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{
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unsigned long m_dwSavedState;
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unsigned long m_cMaxGlyph; // Number of entries in the translator table
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unsigned long m_dwNumGlyphs; // Number of valid glyphs
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float m_fFontHeight; // Height of the font strike in pixels
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float m_fFontTopPadding; // Padding above the strike zone
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float m_fFontBottomPadding; // Padding below the strike zone
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float m_fFontYAdvance; // Number of pixels to move the cursor for a line feed
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wchar_t * m_TranslatorTable; // ASCII to glyph lookup table
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D3DTexture* m_pFontTexture;
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const GLYPH_ATTR* m_Glyphs; // Array of glyphs
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} xdk360_video_font_t;
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static xdk360_video_font_t m_Font;
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static PackedResource m_xprResource;
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#define CALCFONTFILEHEADERSIZE(x) ( sizeof(unsigned long) + (sizeof(float)* 4) + sizeof(unsigned short) + (sizeof(wchar_t)*(x)) )
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#define FONTFILEVERSION 5
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typedef struct {
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unsigned long m_dwFileVersion; // Version of the font file (Must match FONTFILEVERSION)
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float m_fFontHeight; // Height of the font strike in pixels
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float m_fFontTopPadding; // Padding above the strike zone
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float m_fFontBottomPadding; // Padding below the strike zone
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float m_fFontYAdvance; // Number of pixels to move the cursor for a line feed
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unsigned short m_cMaxGlyph; // Number of font characters (Should be an odd number to maintain DWORD Alignment)
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wchar_t m_TranslatorTable[1]; // ASCII to Glyph lookup table, NOTE: It's m_cMaxGlyph+1 in size.
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} FontFileHeaderImage_t;
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typedef struct {
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unsigned long m_dwNumGlyphs; // Size of font strike array (First entry is the unknown glyph)
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GLYPH_ATTR m_Glyphs[1]; // Array of font strike uv's etc... NOTE: It's m_dwNumGlyphs in size
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} FontFileStrikesImage_t;
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static const char g_strFontShader[] =
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"struct VS_IN\n"
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"{\n"
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"float2 Pos : POSITION;\n"
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"float2 Tex : TEXCOORD0;\n"
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"};\n"
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"struct VS_OUT\n"
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"{\n"
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"float4 Position : POSITION;\n"
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"float2 TexCoord0 : TEXCOORD0;\n"
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"};\n"
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"uniform float4 Color : register(c1);\n"
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"uniform float2 TexScale : register(c2);\n"
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"sampler FontTexture : register(s0);\n"
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"VS_OUT main_vertex( VS_IN In )\n"
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"{\n"
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"VS_OUT Out;\n"
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"Out.Position.x = (In.Pos.x-0.5);\n"
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"Out.Position.y = (In.Pos.y-0.5);\n"
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"Out.Position.z = ( 0.0 );\n"
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"Out.Position.w = ( 1.0 );\n"
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"Out.TexCoord0.x = In.Tex.x * TexScale.x;\n"
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"Out.TexCoord0.y = In.Tex.y * TexScale.y;\n"
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"return Out;\n"
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"}\n"
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"float4 main_fragment( VS_OUT In ) : COLOR0\n"
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"{\n"
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"float4 FontTexel = tex2D( FontTexture, In.TexCoord0 );\n"
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"return FontTexel;\n"
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"}\n";
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typedef struct {
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D3DVertexDeclaration* m_pFontVertexDecl;
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D3DVertexShader* m_pFontVertexShader;
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D3DPixelShader* m_pFontPixelShader;
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} Font_Locals_t;
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static Font_Locals_t s_FontLocals;
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static HRESULT xdk360_video_font_create_shaders (void *data, xdk360_video_font_t * font)
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{
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HRESULT hr;
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d3d_video_t *d3d = (d3d_video_t*)data;
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LPDIRECT3DDEVICE d3dr = d3d->dev;
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if (!s_FontLocals.m_pFontVertexDecl)
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{
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do
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{
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static const D3DVERTEXELEMENT9 decl[] =
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{
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{ 0, 0, D3DDECLTYPE_FLOAT2, D3DDECLMETHOD_DEFAULT, D3DDECLUSAGE_POSITION, 0 },
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{ 0, 8, D3DDECLTYPE_USHORT2, D3DDECLMETHOD_DEFAULT, D3DDECLUSAGE_TEXCOORD, 0 },
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{ 0, 12, D3DDECLTYPE_D3DCOLOR, D3DDECLMETHOD_DEFAULT, D3DDECLUSAGE_TEXCOORD, 1 },
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D3DDECL_END()
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};
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hr = d3dr->CreateVertexDeclaration( decl, &s_FontLocals.m_pFontVertexDecl );
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if (hr >= 0)
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{
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ID3DXBuffer* pShaderCode;
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hr = D3DXCompileShader( g_strFontShader, sizeof(g_strFontShader)-1 ,
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NULL, NULL, "main_vertex", "vs.2.0", 0,&pShaderCode, NULL, NULL );
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if (hr >= 0)
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{
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hr = d3dr->CreateVertexShader( ( unsigned long * )pShaderCode->GetBufferPointer(),
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&s_FontLocals.m_pFontVertexShader );
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pShaderCode->Release();
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if (hr >= 0)
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{
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hr = D3DXCompileShader( g_strFontShader, sizeof(g_strFontShader)-1 ,
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NULL, NULL, "main_fragment", "ps.2.0", 0,&pShaderCode, NULL, NULL );
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if (hr >= 0)
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{
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hr = d3dr->CreatePixelShader((DWORD*)pShaderCode->GetBufferPointer(),
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&s_FontLocals.m_pFontPixelShader );
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pShaderCode->Release();
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if (hr >= 0)
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{
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hr = 0;
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break;
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}
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}
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s_FontLocals.m_pFontVertexShader->Release();
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}
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s_FontLocals.m_pFontVertexShader = NULL;
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}
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s_FontLocals.m_pFontVertexDecl->Release();
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}
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s_FontLocals.m_pFontVertexDecl = NULL;
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}while (0);
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}
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else
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{
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s_FontLocals.m_pFontVertexDecl->AddRef();
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s_FontLocals.m_pFontVertexShader->AddRef();
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s_FontLocals.m_pFontPixelShader->AddRef();
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hr = 0;
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}
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return hr;
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}
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static bool xdk_init_font(void *data, const char *font_path, unsigned font_size)
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{
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(void)font_size;
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// Create the font
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xdk360_video_font_t *font = &m_Font;
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d3d_video_t *d3d = (d3d_video_t*)data;
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font->m_pFontTexture = NULL;
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font->m_dwNumGlyphs = 0L;
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font->m_Glyphs = NULL;
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font->m_cMaxGlyph = 0;
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font->m_TranslatorTable = NULL;
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// Create the font
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if (FAILED( m_xprResource.Create(font_path)))
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goto error;
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D3DTexture *pFontTexture = m_xprResource.GetTexture( "FontTexture" );
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const void *pFontData = m_xprResource.GetData( "FontData");
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// Save a copy of the texture
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font->m_pFontTexture = pFontTexture;
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// Check version of file (to make sure it matches up with the FontMaker tool)
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const unsigned char * pData = (const unsigned char*)pFontData;
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unsigned long dwFileVersion = ((const FontFileHeaderImage_t *)pData)->m_dwFileVersion;
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if (dwFileVersion == FONTFILEVERSION)
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{
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font->m_fFontHeight = ((const FontFileHeaderImage_t *)pData)->m_fFontHeight;
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font->m_fFontTopPadding = ((const FontFileHeaderImage_t *)pData)->m_fFontTopPadding;
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font->m_fFontBottomPadding = ((const FontFileHeaderImage_t *)pData)->m_fFontBottomPadding;
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font->m_fFontYAdvance = ((const FontFileHeaderImage_t *)pData)->m_fFontYAdvance;
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// Point to the translator string which immediately follows the 4 floats
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font->m_cMaxGlyph = ((const FontFileHeaderImage_t *)pData)->m_cMaxGlyph;
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font->m_TranslatorTable = const_cast<FontFileHeaderImage_t*>((const FontFileHeaderImage_t *)pData)->m_TranslatorTable;
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pData += CALCFONTFILEHEADERSIZE( font->m_cMaxGlyph + 1 );
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// Read the glyph attributes from the file
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font->m_dwNumGlyphs = ((const FontFileStrikesImage_t *)pData)->m_dwNumGlyphs;
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font->m_Glyphs = ((const FontFileStrikesImage_t *)pData)->m_Glyphs; // Pointer
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}
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else
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{
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RARCH_ERR( "Incorrect version number on font file.\n" );
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goto error;
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}
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// Create the vertex and pixel shaders for rendering the font
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if (FAILED(xdk360_video_font_create_shaders(d3d, font)))
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{
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RARCH_ERR( "Could not create font shaders.\n" );
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goto error;
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}
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RARCH_LOG("Successfully initialized D3D9 HLSL fonts.\n");
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return true;
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error:
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RARCH_ERR("Could not initialize D3D9 HLSL fonts.\n");
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return false;
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}
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static void xdk_deinit_font(void *data)
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{
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xdk360_video_font_t *font = &m_Font;
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// Destroy the font
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font->m_pFontTexture = NULL;
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font->m_dwNumGlyphs = 0L;
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font->m_Glyphs = NULL;
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font->m_cMaxGlyph = 0;
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font->m_TranslatorTable = NULL;
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if (s_FontLocals.m_pFontPixelShader)
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s_FontLocals.m_pFontPixelShader->Release();
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if (s_FontLocals.m_pFontVertexShader)
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s_FontLocals.m_pFontVertexShader->Release();
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if (s_FontLocals.m_pFontVertexDecl)
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s_FontLocals.m_pFontVertexDecl->Release();
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s_FontLocals.m_pFontPixelShader = NULL;
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s_FontLocals.m_pFontVertexShader = NULL;
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s_FontLocals.m_pFontVertexDecl = NULL;
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if (m_xprResource.Initialized())
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m_xprResource.Destroy();
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}
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static void xdk_render_msg_post(xdk360_video_font_t * font, void *video_data)
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{
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// Cache the global pointer into a register
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d3d_video_t *d3d = (d3d_video_t*)video_data;
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LPDIRECT3DDEVICE d3dr = d3d->dev;
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d3dr->SetTexture(0, NULL);
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d3dr->SetVertexDeclaration(NULL);
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D3DDevice_SetVertexShader(d3dr, NULL);
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D3DDevice_SetPixelShader(d3dr, NULL);
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d3dr->SetRenderState( D3DRS_VIEWPORTENABLE, font->m_dwSavedState );
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}
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static void xdk_render_msg_pre(xdk360_video_font_t * font, void *video_data)
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{
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d3d_video_t *d3d = (d3d_video_t*)video_data;
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LPDIRECT3DDEVICE d3dr = d3d->dev;
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// Save state
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d3dr->GetRenderState( D3DRS_VIEWPORTENABLE, &font->m_dwSavedState );
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// Set the texture scaling factor as a vertex shader constant
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D3DSURFACE_DESC TextureDesc;
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D3DTexture_GetLevelDesc(font->m_pFontTexture, 0, &TextureDesc); // Get the description
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// Set render state
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d3dr->SetTexture(0, font->m_pFontTexture);
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// Read the TextureDesc here to ensure no load/hit/store from GetLevelDesc()
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float vTexScale[4];
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vTexScale[0] = 1.0f / TextureDesc.Width; // LHS due to int->float conversion
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vTexScale[1] = 1.0f / TextureDesc.Height;
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vTexScale[2] = 0.0f;
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vTexScale[3] = 0.0f;
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d3dr->SetRenderState( D3DRS_VIEWPORTENABLE, FALSE );
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d3dr->SetVertexDeclaration(s_FontLocals.m_pFontVertexDecl);
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d3dr->SetVertexShader(s_FontLocals.m_pFontVertexShader);
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d3dr->SetPixelShader(s_FontLocals.m_pFontPixelShader);
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// Set the texture scaling factor as a vertex shader constant
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// Call here to avoid load hit store from writing to vTexScale above
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d3dr->SetVertexShaderConstantF( 2, vTexScale, 1 );
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}
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static void xdk_video_font_draw_text(xdk360_video_font_t *font, void *video_data,
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float x, float y, const wchar_t * strText)
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{
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d3d_video_t *d3d = (d3d_video_t*)video_data;
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LPDIRECT3DDEVICE d3dr = d3d->dev;
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// Set the color as a vertex shader constant
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float vColor[4];
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vColor[0] = ( ( 0xffffffff & 0x00ff0000 ) >> 16L ) / 255.0f;
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vColor[1] = ( ( 0xffffffff & 0x0000ff00 ) >> 8L ) / 255.0f;
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vColor[2] = ( ( 0xffffffff & 0x000000ff ) >> 0L ) / 255.0f;
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vColor[3] = ( ( 0xffffffff & 0xff000000 ) >> 24L ) / 255.0f;
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// Perform the actual storing of the color constant here to prevent
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// a load-hit-store by inserting work between the store and the use of
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// the vColor array.
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d3dr->SetVertexShaderConstantF( 1, vColor, 1 );
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float m_fCursorX = floorf(x);
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float m_fCursorY = floorf(y);
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// Adjust for padding
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y -= font->m_fFontTopPadding;
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// Begin drawing the vertices
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// Declared as volatile to force writing in ascending
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// address order. It prevents out of sequence writing in write combined
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// memory.
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volatile float * pVertex;
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unsigned long dwNumChars = wcslen(strText);
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d3dr->BeginVertices(D3DPT_QUADLIST, 4 * dwNumChars, sizeof(XMFLOAT4), (void**)&pVertex);
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// Draw four vertices for each glyph
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while (*strText)
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{
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// Get the current letter in the string
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wchar_t letter = *strText++;
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if (letter == L'\n')
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{
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// Handle the newline character
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m_fCursorX = x;
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m_fCursorY += font->m_fFontYAdvance * FONT_SCALE;
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continue;
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}
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// Translate unprintable characters
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const GLYPH_ATTR *pGlyph;
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if (letter <= font->m_cMaxGlyph)
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pGlyph = &font->m_Glyphs[font->m_TranslatorTable[letter]];
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else
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pGlyph = &font->m_Glyphs[0];
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float fOffset = FONT_SCALE * (float)pGlyph->wOffset;
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float fAdvance = FONT_SCALE * (float)pGlyph->wAdvance;
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float fWidth = FONT_SCALE * (float)pGlyph->wWidth;
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float fHeight = FONT_SCALE * font->m_fFontHeight;
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m_fCursorX += fOffset;
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// Add the vertices to draw this glyph
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unsigned long tu1 = pGlyph->tu1; // Convert shorts to 32 bit longs for in register merging
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unsigned long tv1 = pGlyph->tv1;
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unsigned long tu2 = pGlyph->tu2;
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unsigned long tv2 = pGlyph->tv2;
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// NOTE: The vertexes are 2 floats for the screen coordinates,
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// followed by two USHORTS for the u/vs of the character,
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// terminated with the ARGB 32 bit color.
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// This makes for 16 bytes per vertex data (Easier to read)
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// Second NOTE: The uvs are merged and written using a DWORD due
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// to the write combining hardware being only able to handle 32,
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// 64 and 128 writes. Never store to write combined memory with
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// 8 or 16 bit instructions. You've been warned.
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// Setup the vertex/screen coordinates
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pVertex[0] = m_fCursorX;
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pVertex[1] = m_fCursorY;
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pVertex[3] = 0;
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pVertex[4] = m_fCursorX + fWidth;
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pVertex[5] = m_fCursorY;
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pVertex[7] = 0;
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pVertex[8] = m_fCursorX + fWidth;
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pVertex[9] = m_fCursorY + fHeight;
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pVertex[11] = 0;
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pVertex[12] = m_fCursorX;
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pVertex[13] = m_fCursorY + fHeight;
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#ifndef LSB_FIRST
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((volatile unsigned long *)pVertex)[2] = (tu1 << 16) | tv1; // Merged using big endian rules
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((volatile unsigned long *)pVertex)[6] = (tu2 << 16) | tv1; // Merged using big endian rules
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((volatile unsigned long *)pVertex)[10] = (tu2 << 16) | tv2; // Merged using big endian rules
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((volatile unsigned long *)pVertex)[14] = (tu1 << 16) | tv2; // Merged using big endian rules
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#endif
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pVertex[15] = 0;
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pVertex += 16;
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m_fCursorX += fAdvance;
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dwNumChars--;
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}
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// Since we allocated vertex data space based on the string length, we now need to
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// add some dummy verts for any skipped characters (like newlines, etc.)
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while (dwNumChars)
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{
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for (unsigned i = 0; i < 16; i++)
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pVertex[i] = 0;
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pVertex += 16;
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dwNumChars--;
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}
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d3dr->EndVertices();
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}
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static void xdk_render_msg(void *data, const char *str_msg, const struct font_params *params)
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{
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d3d_video_t *d3d = (d3d_video_t*)data;
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xdk360_video_font_t *font = &m_Font;
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wchar_t msg[PATH_MAX];
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float x, y;
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if (params)
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{
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x = params->x;
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y = params->y;
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}
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else
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{
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x = (g_extern.lifecycle_state & (1ULL << MODE_MENU_HD)) ? 160 : 100;
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y = 120;
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|
}
|
|
|
|
mbstowcs(msg, str_msg, sizeof(msg) / sizeof(wchar_t));
|
|
|
|
if (msg || msg[0] != L'\0')
|
|
{
|
|
xdk_render_msg_pre(font, d3d);
|
|
xdk_video_font_draw_text(font, d3d, x, y, msg);
|
|
xdk_render_msg_post(font, d3d);
|
|
}
|
|
}
|
|
|
|
const d3d_font_renderer_t d3d_xbox360_font = {
|
|
xdk_init_font,
|
|
xdk_deinit_font,
|
|
xdk_render_msg,
|
|
"Xbox 360 fonts",
|
|
};
|