C++ (Cpp) shInvertMatrix示例

示例#1

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显示文件

文件： rglu.c 项目： videogamepreservation/homeworld

void mat4_inversed(GLdouble* d, GLdouble* s)
{
    GLfloat in[16], out[16];
    GLint i;

    for (i = 0; i < 16; i++)
    {
        in[i] = (GLfloat)s[i];
    }
    shInvertMatrix(out, in);
    for (i = 0; i < 16; i++)
    {
        d[i] = (GLdouble)out[i];
    }
}

示例#2

0

显示文件

文件： shPipeline.c 项目： phoenix826/shivavg

VGboolean shIsTessCacheValid (VGContext *c, SHPath *p)
{
  SHfloat nX, nY;
  SHVector2 X, Y;
  SHMatrix3x3 mi, mchange;
  VGboolean valid = VG_TRUE;

  if (p->cacheDataValid == VG_FALSE) {
    valid = VG_FALSE;
  }
  else if (p->cacheTransformInit == VG_FALSE) {
    valid = VG_FALSE;
  }
  else if (shInvertMatrix( &p->cacheTransform, &mi ) == VG_FALSE) {
    valid = VG_FALSE;
  }
  else
  {
    /* TODO: Compare change matrix for any scale or shear  */
    MULMATMAT( c->pathTransform, mi, mchange );
    SET2( X, mi.m[0][0], mi.m[1][0] );
    SET2( Y, mi.m[0][1], mi.m[1][1] );
    nX = NORM2( X ); nY = NORM2( Y );
    if (nX > 1.01f || nX < 0.99 ||
        nY > 1.01f || nY < 0.99)
      valid = VG_FALSE;
  }

  if (valid == VG_FALSE)
  {
    /* Update cache */
    p->cacheDataValid = VG_TRUE;
    p->cacheTransformInit = VG_TRUE;
    p->cacheTransform = c->pathTransform;
    p->cacheStrokeTessValid = VG_FALSE;
  }
  
  return valid;
}

示例#3

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显示文件

文件： shPaint.c 项目： Chazzz/pyShiva

int shDrawPatternMesh(SHPaint *p, SHVector2 *min, SHVector2 *max,
                      VGPaintMode mode, GLenum texUnit)
{
  SHMatrix3x3 *m;
  SHMatrix3x3 mi;
  SHfloat migl[16];
  SHint invertible;
  SHVector2 corners[4];
  VGfloat sx, sy;
  SHImage *img;
  int i;
  
  /* Pick paint transform matrix */
  SH_GETCONTEXT(0);
  if (mode == VG_FILL_PATH)
    m = &context->fillTransform;
  else if (mode == VG_STROKE_PATH)
    m = &context->strokeTransform;
  
  /* Boundbox corners */
  SET2(corners[0], min->x, min->y);
  SET2(corners[1], max->x, min->y);
  SET2(corners[2], max->x, max->y);
  SET2(corners[3], min->x, max->y);
  
  /* Find inverse transformation (back to paint space) */
  invertible = shInvertMatrix(m, &mi);
  if (!invertible) {
    
    /* Fill boundbox with tile fill color */
    SHColor *c = &context->tileFillColor;
    glColor4fv((GLfloat*)c); glBegin(GL_QUADS);
    for (i=0; i<4; ++i) glVertex2fv((GLfloat*)&corners[i]);
    glEnd();
    return 1;
  }
  
  
  /* Setup texture coordinate transform */
  img = (SHImage*)p->pattern;
  sx = 1.0f/(VGfloat)img->texwidth;
  sy = 1.0f/(VGfloat)img->texheight;
  
  glActiveTexture(texUnit);
  shMatrixToGL(&mi, migl);
  glMatrixMode(GL_TEXTURE);
  glPushMatrix();
  glScalef(sx, sy, 1.0f);
  glMultMatrixf(migl);

  
  /* Draw boundbox with same texture coordinates
     that will get transformed back to paint space */
  shSetPatternTexGLState(p, context);
  glEnable(GL_TEXTURE_2D);
  glBegin(GL_QUADS);
  
  for (i=0; i<4; ++i) {
    glMultiTexCoord2f(texUnit, corners[i].x, corners[i].y);
    glVertex2fv((GLfloat*)&corners[i]);
  }
  
  glEnd();
  glDisable(GL_TEXTURE_2D);
  glPopMatrix();
  glMatrixMode(GL_MODELVIEW);
  return 1;
}

示例#4

0

显示文件

文件： shPaint.c 项目： Chazzz/pyShiva

int shDrawRadialGradientMesh(SHPaint *p, SHVector2 *min, SHVector2 *max,
                             VGPaintMode mode, GLenum texUnit)
{
  SHint i, j;
  float a, n;
  
  SHfloat cx = p->radialGradient[0];
  SHfloat cy = p->radialGradient[1];
  SHfloat fx = p->radialGradient[2];
  SHfloat fy = p->radialGradient[3];
  float r = p->radialGradient[4];
  float fcx, fcy, rr, C;
  
  SHVector2 ux;
  SHVector2 uy;
  SHVector2 c, f;
  SHVector2 cf;

  SHMatrix3x3 *m;
  SHMatrix3x3 mi;
  SHint invertible;
  SHVector2 corners[4];
  SHVector2 fcorners[4];
  SHfloat minOffset=0.0f;
  SHfloat maxOffset=0.0f;
  
  SHint maxI=0, maxJ=0;
  SHfloat maxA=0.0f;
  SHfloat startA=0.0f;
  
  int numsteps = 100;
  float step = 2*PI/numsteps;
  SHVector2 tmin, tmax;
  SHVector2 min1, max1, min2, max2;
  
  /* Pick paint transform matrix */
  SH_GETCONTEXT(0);
  if (mode == VG_FILL_PATH)
    m = &context->fillTransform;
  else if (mode == VG_STROKE_PATH)
    m = &context->strokeTransform;
  
  /* Move focus into circle if outside */
  SET2(cf, fx,fy);
  SUB2(cf, cx,cy);
  n = NORM2(cf);
  if (n > r) {
    DIV2(cf, n);
    fx = cx + 0.995f * r * cf.x;
    fy = cy + 0.995f * r * cf.y;
  }
  
  /* Precalculations */
  rr = r*r;
  fcx = fx - cx;
  fcy = fy - cy;
  C = fcx*fcx + fcy*fcy - rr;
  
  /* Apply paint-to-user transformation
     to focus and unit vectors */
  SET2(f, fx, fy);
  SET2(c, cx, cy);
  SET2(ux, 1, 0);
  SET2(uy, 0, 1);
  ADD2(ux, cx, cy);
  ADD2(uy, cx, cy);
  TRANSFORM2(f, (*m));
  TRANSFORM2(c, (*m));
  TRANSFORM2(ux, (*m));
  TRANSFORM2(uy, (*m));
  SUB2V(ux, c); SUB2V(uy, c);
  
  /* Boundbox corners */
  SET2(corners[0], min->x, min->y);
  SET2(corners[1], max->x, min->y);
  SET2(corners[2], max->x, max->y);
  SET2(corners[3], min->x, max->y);
  
  /* Find inverse transformation (back to paint space) */
  invertible = shInvertMatrix(m, &mi);
  if (!invertible || r <= 0.0f) {
    
    /* Fill boundbox with color at offset 1 */
    SHColor *c = &p->stops.items[p->stops.size-1].color;
    glColor4fv((GLfloat*)c); glBegin(GL_QUADS);
    for (i=0; i<4; ++i) glVertex2fv((GLfloat*)&corners[i]);
    glEnd();
    return 1;
  }
  
  /*--------------------------------------------------------*/
  
  /* Find min/max offset */
  for (i=0; i<4; ++i) {
    
    /* Transform to paint space */
    SHfloat ax,ay, A,B,D,t, off;
    TRANSFORM2TO(corners[i], mi, fcorners[i]);
    SUB2(fcorners[i], fx, fy);
    n = NORM2(fcorners[i]);
    if (n == 0.0f) {
      
      /* Avoid zero-length vectors */
      off = 0.0f;
      
    }else{
      
      /* Distance from focus to circle at corner angle */
      DIV2(fcorners[i], n);
      ax = fcorners[i].x;
      ay = fcorners[i].y;
      A = ax*ax + ay*ay;
      B = 2 * (fcx*ax + fcy*ay);
      D = B*B - 4*A*C;
      t = (-B + SH_SQRT(D)) / (2*A);
      
      /* Relative offset of boundbox corner */
      if (D <= 0.0f) off = 1.0f;
      else off = n / t;
    }
    
    /* Find smallest and largest offset */
    if (off < minOffset || i==0) minOffset = off;
    if (off > maxOffset || i==0) maxOffset = off;
  }
  
  /* Is transformed focus inside original boundbox? */
  if (f.x >= min->x && f.x <= max->x &&
      f.y >= min->y && f.y <= max->y) {
    
    /* Draw whole circle */
    minOffset = 0.0f;
    startA = 0.0f;
    maxA = 2*PI;
    
  }else{
    
    /* Find most distant corner pair */
    for (i=0; i<3; ++i) {
      if (ISZERO2(fcorners[i])) continue;
      for (j=i+1; j<4; ++j) {
        if (ISZERO2(fcorners[j])) continue;
        a = ANGLE2N(fcorners[i], fcorners[j]);
        if (a > maxA || maxA == 0.0f)
          {maxA=a; maxI=i; maxJ=j;}
      }}
    
    /* Pick starting angle */
    if (CROSS2(fcorners[maxI],fcorners[maxJ]) > 0.0f)
      startA = shVectorOrientation(&fcorners[maxI]);
    else startA = shVectorOrientation(&fcorners[maxJ]);
  }
  
  /*---------------------------------------------------------*/
  
  /* TODO: for minOffset we'd actually need to find minimum
     of the gradient function when X and Y are substitued
     with a line equation for each bound-box edge. As a
     workaround we use 0.0f for now. */
  minOffset = 0.0f;
  step = PI/50;
  numsteps = (SHint)SH_CEIL(maxA / step) + 1;
  
  glActiveTexture(texUnit);
  shSetGradientTexGLState(p);
  
  glEnable(GL_TEXTURE_1D);
  glBegin(GL_QUADS);
  
  /* Walk the steps and draw gradient mesh */
  for (i=0, a=startA; i<numsteps; ++i, a+=step) {
    
    /* Distance from focus to circle border
         at current angle (gradient space) */
    float ax = SH_COS(a);
    float ay = SH_SIN(a);
    float A = ax*ax + ay*ay;
    float B = 2 * (fcx*ax + fcy*ay);
    float D = B*B - 4*A*C;
    float t = (-B + SH_SQRT(D)) / (2*A);
    if (D <= 0.0f) t = 0.0f;
    
    /* Vectors pointing towards minimum and maximum
         offset at current angle (gradient space) */
    tmin.x = ax * t * minOffset;
    tmin.y = ay * t * minOffset;
    tmax.x = ax * t * maxOffset;
    tmax.y = ay * t * maxOffset;
    
    /* Transform back to user space */
    min2.x = f.x + tmin.x * ux.x + tmin.y * uy.x;
    min2.y = f.y + tmin.x * ux.y + tmin.y * uy.y;
    max2.x = f.x + tmax.x * ux.x + tmax.y * uy.x;
    max2.y = f.y + tmax.x * ux.y + tmax.y * uy.y;
    
    /* Draw quad */
    if (i!=0) {
      glMultiTexCoord1f(texUnit, minOffset);
      glVertex2fv((GLfloat*)&min1);
      glVertex2fv((GLfloat*)&min2);
      glMultiTexCoord1f(texUnit, maxOffset);
      glVertex2fv((GLfloat*)&max2);
      glVertex2fv((GLfloat*)&max1);
    }
    
    /* Save prev points */
    min1 = min2;
    max1 = max2;
  }
  
  glEnd();
  glDisable(GL_TEXTURE_1D);

  return 1;
}

示例#5

0

显示文件

文件： shPaint.c 项目： Chazzz/pyShiva

int shDrawLinearGradientMesh(SHPaint *p, SHVector2 *min, SHVector2 *max,
                             VGPaintMode mode, GLenum texUnit)
{
  SHint i;
  SHfloat n;
  
  SHfloat x1 = p->linearGradient[0];
  SHfloat y1 = p->linearGradient[1];
  SHfloat x2 = p->linearGradient[2];
  SHfloat y2 = p->linearGradient[3];
  SHVector2 c, ux, uy;
  SHVector2 cc, uux, uuy;
  
  SHMatrix3x3 *m;
  SHMatrix3x3 mi;
  SHint invertible;
  SHVector2 corners[4];
  SHfloat minOffset = 0.0f;
  SHfloat maxOffset = 0.0f;
  SHfloat left = 0.0f;
  SHfloat right = 0.0f;
  SHVector2 l1,r1,l2,r2;

  /* Pick paint transform matrix */
  SH_GETCONTEXT(0);
  if (mode == VG_FILL_PATH)
    m = &context->fillTransform;
  else if (mode == VG_STROKE_PATH)
    m = &context->strokeTransform;
  
  /* Gradient center and unit vectors */
  SET2(c, x1, y1);
  SET2(ux, x2-x1, y2-y1);
  SET2(uy, -ux.y, ux.x);
  n = NORM2(ux);
  DIV2(ux, n);
  NORMALIZE2(uy);

  /* Apply paint-to-user transformation */
  ADD2V(ux, c); ADD2V(uy, c);
  TRANSFORM2TO(c, (*m), cc);
  TRANSFORM2TO(ux, (*m), uux);
  TRANSFORM2TO(uy, (*m), uuy);
  SUB2V(ux,c); SUB2V(uy,c);
  SUB2V(uux,cc); SUB2V(uuy,cc);
  
  /* Boundbox corners */
  SET2(corners[0], min->x, min->y);
  SET2(corners[1], max->x, min->y);
  SET2(corners[2], max->x, max->y);
  SET2(corners[3], min->x, max->y);
  
  /* Find inverse transformation (back to paint space) */
  invertible = shInvertMatrix(m, &mi);
  if (!invertible || n==0.0f) {
    
    /* Fill boundbox with color at offset 1 */
    SHColor *c = &p->stops.items[p->stops.size-1].color;
    glColor4fv((GLfloat*)c); glBegin(GL_QUADS);
    for (i=0; i<4; ++i) glVertex2fv((GLfloat*)&corners[i]);
    glEnd();
    return 1;
  }
  
  /*--------------------------------------------------------*/
  
  for (i=0; i<4; ++i) {
    
    /* Find min/max offset and perpendicular span */
    SHfloat o, s;
    TRANSFORM2(corners[i], mi);
    SUB2V(corners[i], c);
    o = DOT2(corners[i], ux) / n;
    s = DOT2(corners[i], uy);
    if (o < minOffset || i==0) minOffset = o;
    if (o > maxOffset || i==0) maxOffset = o;
    if (s < left || i==0) left = s;
    if (s > right || i==0) right = s;
  }
  
  /*---------------------------------------------------------*/
  
  /* Corners of boundbox in gradient system */
  SET2V(l1, cc); SET2V(r1, cc);
  SET2V(l2, cc); SET2V(r2, cc);
  OFFSET2V(l1, uuy, left);  OFFSET2V(l1, uux, minOffset * n);
  OFFSET2V(r1, uuy, right); OFFSET2V(r1, uux, minOffset * n);
  OFFSET2V(l2, uuy, left);  OFFSET2V(l2, uux, maxOffset * n);
  OFFSET2V(r2, uuy, right); OFFSET2V(r2, uux, maxOffset * n);
  
  /* Draw quad using color-ramp texture */
  glActiveTexture(texUnit);
  shSetGradientTexGLState(p);
  
  glEnable(GL_TEXTURE_1D);
  glBegin(GL_QUAD_STRIP);
  
  glMultiTexCoord1f(texUnit, minOffset);
  glVertex2fv((GLfloat*)&r1);
  glVertex2fv((GLfloat*)&l1);
  
  glMultiTexCoord1f(texUnit, maxOffset);
  glVertex2fv((GLfloat*)&r2);
  glVertex2fv((GLfloat*)&l2);
  
  glEnd();
  glDisable(GL_TEXTURE_1D);

  return 1;
}

示例#6

0

显示文件

文件： shPipeline.c 项目： phoenix826/shivavg

VG_API_CALL void vgDrawPath(VGPath path, VGbitfield paintModes)
{
  SHPath *p;
  SHMatrix3x3 mi;
  SHfloat mgl[16];
  SHPaint *fill, *stroke;
  SHRectangle *rect;
  
  VG_GETCONTEXT(VG_NO_RETVAL);
  
  VG_RETURN_ERR_IF(!shIsValidPath(context, path),
                   VG_BAD_HANDLE_ERROR, VG_NO_RETVAL);
  
  VG_RETURN_ERR_IF(paintModes & (~(VG_STROKE_PATH | VG_FILL_PATH)),
                   VG_ILLEGAL_ARGUMENT_ERROR, VG_NO_RETVAL);

  /* Check whether scissoring is enabled and scissor
     rectangle is valid */
  if (context->scissoring == VG_TRUE) {
    rect = &context->scissor.items[0];
    if (context->scissor.size == 0) VG_RETURN( VG_NO_RETVAL );
    if (rect->w <= 0.0f || rect->h <= 0.0f) VG_RETURN( VG_NO_RETVAL );
    glScissor( (GLint)rect->x, (GLint)rect->y, (GLint)rect->w, (GLint)rect->h );
    glEnable( GL_SCISSOR_TEST );
  }
  
  p = (SHPath*)path;
  
  /* If user-to-surface matrix invertible tessellate in
     surface space for better path resolution */
  if (shIsTessCacheValid( context, p ) == VG_FALSE)
  {
    if (shInvertMatrix(&context->pathTransform, &mi)) {
      shFlattenPath(p, 1);
      shTransformVertices(&mi, p);
    }else shFlattenPath(p, 0);
    shFindBoundbox(p);
  }
  
  /* TODO: Turn antialiasing on/off */
  glDisable(GL_LINE_SMOOTH);
  glDisable(GL_POLYGON_SMOOTH);
  glEnable(GL_MULTISAMPLE);
  
  /* Pick paint if available or default*/
  fill = (context->fillPaint ? context->fillPaint : &context->defaultPaint);
  stroke = (context->strokePaint ? context->strokePaint : &context->defaultPaint);
  
  /* Apply transformation */
  shMatrixToGL(&context->pathTransform, mgl);
  glMatrixMode(GL_MODELVIEW);
  glPushMatrix();
  glMultMatrixf(mgl);
  
  if (paintModes & VG_FILL_PATH) {
    
    /* Tesselate into stencil */
    glEnable(GL_STENCIL_TEST);
    /* Clear the stencil buffer first */
    glStencilFunc(GL_ALWAYS, 0, 0);
    glStencilOp(GL_REPLACE, GL_REPLACE, GL_REPLACE);
    glColorMask(GL_FALSE, GL_FALSE, GL_FALSE, GL_FALSE);
    shDrawBoundBox(context, p, VG_FILL_PATH);

    glStencilFunc(GL_ALWAYS, 0, 0);
    glStencilOp(GL_INVERT, GL_INVERT, GL_INVERT);
    glColorMask(GL_FALSE, GL_FALSE, GL_FALSE, GL_FALSE);
    shDrawVertices(p, GL_TRIANGLE_FAN);
    
    /* Setup blending */
    updateBlendingStateGL(context,
                          fill->type == VG_PAINT_TYPE_COLOR &&
                          fill->color.a == 1.0f);
    
    /* Draw paint where stencil odd */
    glStencilFunc(GL_EQUAL, 1, 1);
    glStencilOp(GL_ZERO, GL_ZERO, GL_ZERO);
    glColorMask(GL_TRUE, GL_TRUE, GL_TRUE, GL_TRUE);
    shDrawPaintMesh(context, &p->min, &p->max, VG_FILL_PATH, GL_TEXTURE0);

    /* Reset state */
    glColorMask(GL_TRUE, GL_TRUE, GL_TRUE, GL_TRUE);
    glDisable(GL_STENCIL_TEST);
    glDisable(GL_BLEND);
  }
  
  /* TODO: Turn antialiasing on/off */
  glDisable(GL_LINE_SMOOTH);
  glDisable(GL_POLYGON_SMOOTH);
  glEnable(GL_MULTISAMPLE);
  
  if ((paintModes & VG_STROKE_PATH) &&
      context->strokeLineWidth > 0.0f) {
    
    if (1) {/*context->strokeLineWidth > 1.0f) {*/

      if (shIsStrokeCacheValid( context, p ) == VG_FALSE)
      {
        /* Generate stroke triangles in user space */
        shVector2ArrayClear(&p->stroke);
        shStrokePath(context, p);
      }

      /* Stroke into stencil */
      glEnable(GL_STENCIL_TEST);
      /* Clear the stencil buffer first */
      glStencilFunc(GL_ALWAYS, 0, 0);
      glStencilOp(GL_REPLACE, GL_REPLACE, GL_REPLACE);
      glColorMask(GL_FALSE, GL_FALSE, GL_FALSE, GL_FALSE);
      shDrawBoundBox(context, p, VG_STROKE_PATH);

      glStencilFunc(GL_NOTEQUAL, 1, 1);
      glStencilOp(GL_KEEP, GL_INCR, GL_INCR);
      glColorMask(GL_FALSE, GL_FALSE, GL_FALSE, GL_FALSE);
      shDrawStroke(p);

      /* Setup blending */
      updateBlendingStateGL(context,
                            stroke->type == VG_PAINT_TYPE_COLOR &&
                            stroke->color.a == 1.0f);

      /* Draw paint where stencil odd */
      glStencilFunc(GL_EQUAL, 1, 1);
      glStencilOp(GL_ZERO, GL_ZERO, GL_ZERO);
      glColorMask(GL_TRUE, GL_TRUE, GL_TRUE, GL_TRUE);
      shDrawPaintMesh(context, &p->min, &p->max, VG_STROKE_PATH, GL_TEXTURE0);
      
      /* Reset state */
      glColorMask(GL_TRUE, GL_TRUE, GL_TRUE, GL_TRUE);
      glDisable(GL_STENCIL_TEST);
      glDisable(GL_BLEND);
      
    }else{
      
      /* Simulate thin stroke by alpha */
      SHColor c = stroke->color;
      if (context->strokeLineWidth < 1.0f)
        c.a *= context->strokeLineWidth;
      
      /* Draw contour as a line */
      glDisable(GL_MULTISAMPLE);
      glEnable(GL_BLEND);
      glEnable(GL_LINE_SMOOTH);
      glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA);
      glColor4fv((GLfloat*)&c);
      shDrawVertices(p, GL_LINE_STRIP);
      
      glDisable(GL_BLEND);
      glDisable(GL_LINE_SMOOTH);
    }
  }
  
  glDisable(GL_MULTISAMPLE);
  glPopMatrix();
  
  if (context->scissoring == VG_TRUE)
    glDisable( GL_SCISSOR_TEST );

  VG_RETURN(VG_NO_RETVAL);
}