public virtual void paint(int cx, int cy, global::alphatab.platform.ICanvas canvas)
{
unchecked
{
{
int _g = 0;
global::haxe.root.Array <object> _g1 = this.staves;
while ((_g < _g1.length))
{
global::alphatab.rendering.staves.Stave s = ((global::alphatab.rendering.staves.Stave)(_g1[_g]));
++_g;
s.paint((cx + this.x), (cy + this.y), canvas);
}
}
global::alphatab.rendering.RenderingResources res = this.layout.renderer.renderingResources;
if ((this.staves.length > 0))
{
if (((this._firstStaveInAccolade != default(global::alphatab.rendering.staves.Stave)) && (this._lastStaveInAccolade != default(global::alphatab.rendering.staves.Stave))))
{
int firstStart = (((((cy + this.y) + this._firstStaveInAccolade.y) + this._firstStaveInAccolade.staveTop) + this._firstStaveInAccolade.topSpacing) + this._firstStaveInAccolade.getTopOverflow());
int lastEnd = (((((cy + this.y) + this._lastStaveInAccolade.y) + this._lastStaveInAccolade.topSpacing) + this._lastStaveInAccolade.getTopOverflow()) + this._lastStaveInAccolade.staveBottom);
canvas.setColor(res.barSeperatorColor);
canvas.beginPath();
canvas.moveTo(((double)(((cx + this.x) + this._firstStaveInAccolade.x))), ((double)(firstStart)));
canvas.lineTo(((double)(((cx + this.x) + this._lastStaveInAccolade.x))), ((double)(lastEnd)));
canvas.stroke();
int barSize = ((int)((3 * this.layout.renderer.settings.scale)));
int barOffset = barSize;
int accoladeStart = (firstStart - (barSize * 4));
int accoladeEnd = (lastEnd + (barSize * 4));
canvas.fillRect(((double)((((cx + this.x) - barOffset) - barSize))), ((double)(accoladeStart)), ((double)(barSize)), ((double)((accoladeEnd - accoladeStart))));
int spikeStartX = (((cx + this.x) - barOffset) - barSize);
int spikeEndX = ((cx + this.x) + (barSize * 2));
canvas.beginPath();
canvas.moveTo(((double)(spikeStartX)), ((double)(accoladeStart)));
canvas.bezierCurveTo(((double)(spikeStartX)), ((double)(accoladeStart)), ((double)(this.x)), ((double)(accoladeStart)), ((double)(spikeEndX)), ((double)((accoladeStart - barSize))));
canvas.bezierCurveTo(((double)((cx + this.x))), ((double)((accoladeStart + barSize))), ((double)(spikeStartX)), ((double)((accoladeStart + barSize))), ((double)(spikeStartX)), ((double)((accoladeStart + barSize))));
canvas.closePath();
canvas.fill();
canvas.beginPath();
canvas.moveTo(((double)(spikeStartX)), ((double)(accoladeEnd)));
canvas.bezierCurveTo(((double)(spikeStartX)), ((double)(accoladeEnd)), ((double)(this.x)), ((double)(accoladeEnd)), ((double)(spikeEndX)), ((double)((accoladeEnd + barSize))));
canvas.bezierCurveTo(((double)(this.x)), ((double)((accoladeEnd - barSize))), ((double)(spikeStartX)), ((double)((accoladeEnd - barSize))), ((double)(spikeStartX)), ((double)((accoladeEnd - barSize))));
canvas.closePath();
canvas.fill();
}
}
}
}
public static void paintTie(global::alphatab.platform.ICanvas canvas, double scale, double x1, double y1, double x2, double y2, global::haxe.lang.Null <bool> down)
{
unchecked
{
bool __temp_down200 = ((global::haxe.lang.Runtime.eq((down).toDynamic(), (default(global::haxe.lang.Null <bool>)).toDynamic())) ? (((bool)(false))) : (down.@value));
if ((x2 > x1))
{
double t = x1;
x1 = x2;
x2 = t;
t = y1;
y1 = y2;
y2 = t;
}
double offset = (15 * scale);
double size = (4 * scale);
double normalVector_x = (y2 - y1);
double normalVector_y = (x2 - x1);
double length = global::System.Math.Sqrt(((double)(((normalVector_x * normalVector_x) + (normalVector_y * normalVector_y)))));
if (__temp_down200)
{
normalVector_x *= ((double)(-1));
}
else
{
normalVector_y *= ((double)(-1));
}
normalVector_x /= length;
normalVector_y /= length;
double center_x = (((x2 + x1)) / 2);
double center_y = (((y2 + y1)) / 2);
double cp1_x = (center_x + (offset * normalVector_x));
double cp1_y = (center_y + (offset * normalVector_y));
double cp2_x = (center_x + (((offset - size)) * normalVector_x));
double cp2_y = (center_y + (((offset - size)) * normalVector_y));
canvas.beginPath();
canvas.moveTo(x1, y1);
canvas.quadraticCurveTo(cp1_x, cp1_y, x2, y2);
canvas.quadraticCurveTo(cp2_x, cp2_y, x1, y1);
canvas.closePath();
}
}
public virtual void parseCommand(int cx, int cy, global::alphatab.platform.ICanvas canvas, global::alphatab.rendering.glyphs.SvgCommand cmd)
{
unchecked
{
bool canContinue = default(bool);
int i = default(int);
{
string _g = cmd.cmd;
switch (_g)
{
case "M":
{
this._currentX = (cx + (cmd.numbers[0] * this._xScale));
this._currentY = (cy + (cmd.numbers[1] * this._yScale));
canvas.moveTo(this._currentX, this._currentY);
break;
}
case "m":
{
this._currentX += (cmd.numbers[0] * this._xScale);
this._currentY += (cmd.numbers[1] * this._yScale);
canvas.moveTo(this._currentX, this._currentY);
break;
}
case "Z":
case "z":
{
canvas.closePath();
break;
}
case "L":
{
i = 0;
while ((i < cmd.numbers.length))
{
this._currentX = (cx + (cmd.numbers[i++] * this._xScale));
this._currentY = (cy + (cmd.numbers[i++] * this._yScale));
canvas.lineTo(this._currentX, this._currentY);
}
break;
}
case "l":
{
i = 0;
while ((i < cmd.numbers.length))
{
this._currentX += (cmd.numbers[i++] * this._xScale);
this._currentY += (cmd.numbers[i++] * this._yScale);
canvas.lineTo(this._currentX, this._currentY);
}
break;
}
case "V":
{
i = 0;
while ((i < cmd.numbers.length))
{
this._currentY = (cy + (cmd.numbers[i++] * this._yScale));
canvas.lineTo(this._currentX, this._currentY);
}
break;
}
case "v":
{
i = 0;
while ((i < cmd.numbers.length))
{
this._currentY += (cmd.numbers[i++] * this._yScale);
canvas.lineTo(this._currentX, this._currentY);
}
break;
}
case "H":
{
i = 0;
while ((i < cmd.numbers.length))
{
this._currentX = (cx + (cmd.numbers[i++] * this._xScale));
canvas.lineTo(this._currentX, this._currentY);
}
break;
}
case "h":
{
i = 0;
while ((i < cmd.numbers.length))
{
this._currentX += (cmd.numbers[i++] * this._xScale);
canvas.lineTo(this._currentX, this._currentY);
}
break;
}
case "C":
{
i = 0;
while ((i < cmd.numbers.length))
{
double x1 = (cx + (cmd.numbers[i++] * this._xScale));
double y1 = (cy + (cmd.numbers[i++] * this._yScale));
double x2 = (cx + (cmd.numbers[i++] * this._xScale));
double y2 = (cy + (cmd.numbers[i++] * this._yScale));
double x3 = (cx + (cmd.numbers[i++] * this._xScale));
double y3 = (cy + (cmd.numbers[i++] * this._yScale));
this._lastControlX = x2;
this._lastControlY = y2;
this._currentX = x3;
this._currentY = y3;
canvas.bezierCurveTo(x1, y1, x2, y2, x3, y3);
}
break;
}
case "c":
{
i = 0;
while ((i < cmd.numbers.length))
{
double x11 = (this._currentX + (cmd.numbers[i++] * this._xScale));
double y11 = (this._currentY + (cmd.numbers[i++] * this._yScale));
double x21 = (this._currentX + (cmd.numbers[i++] * this._xScale));
double y21 = (this._currentY + (cmd.numbers[i++] * this._yScale));
double x31 = (this._currentX + (cmd.numbers[i++] * this._xScale));
double y31 = (this._currentY + (cmd.numbers[i++] * this._yScale));
this._lastControlX = x21;
this._lastControlY = y21;
this._currentX = x31;
this._currentY = y31;
canvas.bezierCurveTo(x11, y11, x21, y21, x31, y31);
}
break;
}
case "S":
{
i = 0;
while ((i < cmd.numbers.length))
{
double x12 = (cx + (cmd.numbers[i++] * this._xScale));
double y12 = (cy + (cmd.numbers[i++] * this._yScale));
canContinue = (((string.Equals(this._lastCmd, "c") || string.Equals(this._lastCmd, "C")) || string.Equals(this._lastCmd, "S")) || string.Equals(this._lastCmd, "s"));
double x22 = default(double);
if (canContinue)
{
x22 = (this._currentX + ((this._currentX - this._lastControlX)));
}
else
{
x22 = this._currentX;
}
double y22 = default(double);
if (canContinue)
{
y22 = (this._currentY + ((this._currentY - this._lastControlY)));
}
else
{
y22 = this._currentY;
}
double x32 = (cx + (cmd.numbers[i++] * this._xScale));
double y32 = (cy + (cmd.numbers[i++] * this._yScale));
this._lastControlX = x22;
this._lastControlY = y22;
this._currentX = x32;
this._currentY = y32;
canvas.bezierCurveTo(x12, y12, x22, y22, x32, y32);
}
break;
}
case "s":
{
i = 0;
while ((i < cmd.numbers.length))
{
double x13 = (this._currentX + (cmd.numbers[i++] * this._xScale));
double y13 = (this._currentY + (cmd.numbers[i++] * this._yScale));
canContinue = (((string.Equals(this._lastCmd, "c") || string.Equals(this._lastCmd, "C")) || string.Equals(this._lastCmd, "S")) || string.Equals(this._lastCmd, "s"));
double x23 = default(double);
if (canContinue)
{
x23 = (this._currentX + ((this._currentX - this._lastControlX)));
}
else
{
x23 = this._currentX;
}
double y23 = default(double);
if (canContinue)
{
y23 = (this._currentY + ((this._currentY - this._lastControlY)));
}
else
{
y23 = this._currentY;
}
double x33 = (this._currentX + (cmd.numbers[i++] * this._xScale));
double y33 = (this._currentY + (cmd.numbers[i++] * this._yScale));
this._lastControlX = x23;
this._lastControlY = y23;
this._currentX = x33;
this._currentY = y33;
canvas.bezierCurveTo(x13, y13, x23, y23, x33, y33);
}
break;
}
case "Q":
{
i = 0;
while ((i < cmd.numbers.length))
{
double x14 = (cx + (cmd.numbers[i++] * this._xScale));
double y14 = (cy + (cmd.numbers[i++] * this._yScale));
double x24 = (cx + (cmd.numbers[i++] * this._xScale));
double y24 = (cy + (cmd.numbers[i++] * this._yScale));
this._lastControlX = x14;
this._lastControlY = y14;
this._currentX = x24;
this._currentY = y24;
canvas.quadraticCurveTo(x14, y14, x24, y24);
}
break;
}
case "q":
{
i = 0;
while ((i < cmd.numbers.length))
{
double x15 = (this._currentX + (cmd.numbers[i++] * this._xScale));
double y15 = (this._currentY + (cmd.numbers[i++] * this._yScale));
double x25 = (this._currentX + (cmd.numbers[i++] * this._xScale));
double y25 = (this._currentY + (cmd.numbers[i++] * this._yScale));
this._lastControlX = x15;
this._lastControlY = y15;
this._currentX = x25;
this._currentY = y25;
canvas.quadraticCurveTo(x15, y15, x25, y25);
}
break;
}
case "T":
{
i = 0;
while ((i < cmd.numbers.length))
{
double x16 = (cx + (cmd.numbers[i++] * this._xScale));
double y16 = (cy + (cmd.numbers[i++] * this._yScale));
canContinue = (((string.Equals(this._lastCmd, "q") || string.Equals(this._lastCmd, "Q")) || string.Equals(this._lastCmd, "t")) || string.Equals(this._lastCmd, "T"));
double cpx = default(double);
if (canContinue)
{
cpx = (this._currentX + ((this._currentX - this._lastControlX)));
}
else
{
cpx = this._currentX;
}
double cpy = default(double);
if (canContinue)
{
cpy = (this._currentY + ((this._currentY - this._lastControlY)));
}
else
{
cpy = this._currentY;
}
this._currentX = x16;
this._currentY = y16;
this._lastControlX = cpx;
this._lastControlY = cpy;
canvas.quadraticCurveTo(cpx, cpy, x16, y16);
}
break;
}
case "t":
{
i = 0;
while ((i < cmd.numbers.length))
{
double x17 = (this._currentX + (cmd.numbers[i++] * this._xScale));
double y17 = (this._currentY + (cmd.numbers[i++] * this._yScale));
double cpx1 = (this._currentX + ((this._currentX - this._lastControlX)));
double cpy1 = (this._currentY + ((this._currentY - this._lastControlY)));
canContinue = (((string.Equals(this._lastCmd, "q") || string.Equals(this._lastCmd, "Q")) || string.Equals(this._lastCmd, "t")) || string.Equals(this._lastCmd, "T"));
double cpx2 = default(double);
if (canContinue)
{
cpx2 = (this._currentX + ((this._currentX - this._lastControlX)));
}
else
{
cpx2 = this._currentX;
}
double cpy2 = default(double);
if (canContinue)
{
cpy2 = (this._currentY + ((this._currentY - this._lastControlY)));
}
else
{
cpy2 = this._currentY;
}
this._lastControlX = cpx2;
this._lastControlY = cpy2;
canvas.quadraticCurveTo(cpx2, cpy2, x17, y17);
}
break;
}
}
}
this._lastCmd = cmd.cmd;
}
}
public override void paint(int cx, int cy, global::alphatab.platform.ICanvas canvas)
{
unchecked
{
global::alphatab.rendering.TabBarRenderer tabBarRenderer = ((global::alphatab.rendering.TabBarRenderer)(this.renderer));
global::alphatab.rendering.RenderingResources res = this.renderer.stave.staveGroup.layout.renderer.renderingResources;
int startY = default(int);
int __temp_stmt600 = default(int);
{
double x = (tabBarRenderer.getNoteY(this._beat.maxNote()) - (res.tablatureFont.getSize() / 2));
__temp_stmt600 = ((int)(x));
}
startY = ((cy + this.y) + __temp_stmt600);
double endY = (((cy + this.y) + tabBarRenderer.getNoteY(this._beat.minNote())) + (res.tablatureFont.getSize() / 2));
int arrowX = ((int)(((cx + this.x) + (((double)(this.width)) / 2))));
double arrowSize = (8 * this.renderer.stave.staveGroup.layout.renderer.settings.scale);
canvas.setColor(res.mainGlyphColor);
if ((this._beat.brushType != global::alphatab.model.BrushType.None))
{
if (((this._beat.brushType == global::alphatab.model.BrushType.BrushUp) || (this._beat.brushType == global::alphatab.model.BrushType.BrushDown)))
{
canvas.beginPath();
canvas.moveTo(((double)(arrowX)), ((double)(startY)));
canvas.lineTo(((double)(arrowX)), endY);
canvas.stroke();
}
else
{
int size = ((int)((15 * this.renderer.stave.staveGroup.layout.renderer.settings.scale)));
int steps = default(int);
{
double v = (global::System.Math.Abs(((double)((endY - startY)))) / size);
{
double x1 = global::System.Math.Floor(((double)(v)));
steps = ((int)(x1));
}
}
{
int _g = 0;
while ((_g < ((int)(steps))))
{
int i = _g++;
global::alphatab.rendering.glyphs.SvgGlyph arrow = new global::alphatab.rendering.glyphs.SvgGlyph(new global::haxe.lang.Null <int>(((int)((3 * this.renderer.stave.staveGroup.layout.renderer.settings.scale))), true), new global::haxe.lang.Null <int>(0, true), ((global::alphatab.rendering.glyphs.LazySvg)(global::alphatab.rendering.glyphs.MusicFont.WaveVertical)), ((double)(1)), ((double)(1)));
arrow.renderer = this.renderer;
arrow.doLayout();
arrow.paint((cx + this.x), (startY + (i * size)), canvas);
}
}
}
if (((this._beat.brushType == global::alphatab.model.BrushType.BrushUp) || (this._beat.brushType == global::alphatab.model.BrushType.ArpeggioUp)))
{
canvas.beginPath();
canvas.moveTo(((double)(arrowX)), endY);
canvas.lineTo(((double)(((int)((arrowX + (arrowSize / 2)))))), ((double)(((int)((endY - arrowSize))))));
canvas.lineTo(((double)(((int)((arrowX - (arrowSize / 2)))))), ((double)(((int)((endY - arrowSize))))));
canvas.closePath();
canvas.fill();
}
else
{
canvas.beginPath();
canvas.moveTo(((double)(arrowX)), ((double)(startY)));
canvas.lineTo(((double)(((int)((arrowX + (arrowSize / 2)))))), ((double)(((int)((startY + arrowSize))))));
canvas.lineTo(((double)(((int)((arrowX - (arrowSize / 2)))))), ((double)(((int)((startY + arrowSize))))));
canvas.closePath();
canvas.fill();
}
}
}
}
public override void paint(int cx, int cy, global::alphatab.platform.ICanvas canvas)
{
unchecked
{
global::alphatab.rendering.TabBarRenderer r = ((global::alphatab.rendering.TabBarRenderer)(this.renderer));
global::alphatab.rendering.RenderingResources res = this.renderer.stave.staveGroup.layout.renderer.renderingResources;
double dX = (((double)(this.width)) / 60);
int maxValue = 0;
{
int _g1 = 0;
int _g = this._note.bendPoints.length;
while ((_g1 < _g))
{
int i = _g1++;
if ((((global::alphatab.model.BendPoint)(this._note.bendPoints[i])).@value > maxValue))
{
maxValue = ((global::alphatab.model.BendPoint)(this._note.bendPoints[i])).@value;
}
}
}
double dY = (((double)(this._height)) / maxValue);
int xx = (cx + this.x);
int yy = ((cy + this.y) + r.getNoteY(this._note));
canvas.beginPath();
{
int _g11 = 0;
int _g2 = (this._note.bendPoints.length - 1);
while ((_g11 < _g2))
{
int i1 = _g11++;
global::alphatab.model.BendPoint firstPt = ((global::alphatab.model.BendPoint)(this._note.bendPoints[i1]));
global::alphatab.model.BendPoint secondPt = ((global::alphatab.model.BendPoint)(this._note.bendPoints[(i1 + 1)]));
if (((firstPt.@value == secondPt.@value) && (i1 == (this._note.bendPoints.length - 2))))
{
continue;
}
double x1 = (xx + (dX * firstPt.offset));
double y1 = (yy - (dY * firstPt.@value));
double x2 = (xx + (dX * secondPt.offset));
double y2 = (yy - (dY * secondPt.@value));
if ((firstPt.@value == secondPt.@value))
{
canvas.moveTo(x1, y1);
canvas.lineTo(x2, y2);
canvas.stroke();
}
else
{
double hx = (x1 + ((x2 - x1)));
double hy = (yy - (dY * firstPt.@value));
canvas.moveTo(x1, y1);
canvas.bezierCurveTo(hx, hy, x2, y2, x2, y2);
canvas.stroke();
}
double arrowSize = (6 * this.renderer.stave.staveGroup.layout.renderer.settings.scale);
if ((secondPt.@value > firstPt.@value))
{
canvas.beginPath();
canvas.moveTo(x2, y2);
canvas.lineTo((x2 - (arrowSize * 0.5)), (y2 + arrowSize));
canvas.lineTo((x2 + (arrowSize * 0.5)), (y2 + arrowSize));
canvas.closePath();
canvas.fill();
}
else
{
if ((secondPt.@value != firstPt.@value))
{
canvas.beginPath();
canvas.moveTo(x2, y2);
canvas.lineTo((x2 - (arrowSize * 0.5)), (y2 - arrowSize));
canvas.lineTo((x2 + (arrowSize * 0.5)), (y2 - arrowSize));
canvas.closePath();
canvas.fill();
}
}
canvas.stroke();
if ((secondPt.@value != 0))
{
double dV = ((double)((secondPt.@value - firstPt.@value)));
bool up = (dV > 0);
dV = global::System.Math.Abs(((double)(dV)));
string s = "";
if ((dV == 4))
{
s = "full";
dV -= ((double)(4));
}
else
{
if ((dV > 4))
{
int __temp_stmt594 = default(int);
{
double x = global::System.Math.Floor(((double)((dV / 4))));
__temp_stmt594 = ((int)(x));
}
string __temp_stmt593 = global::Std.@string(__temp_stmt594);
string __temp_stmt592 = global::haxe.lang.Runtime.concat(__temp_stmt593, " ");
s = global::haxe.lang.Runtime.concat(s, __temp_stmt592);
{
double x3 = global::System.Math.Floor(((double)(dV)));
dV -= ((double)(((int)(x3))));
}
}
}
if ((dV > 0))
{
s = global::haxe.lang.Runtime.concat(s, global::haxe.lang.Runtime.concat(global::Std.@string(dV), "/4"));
}
if (!(string.Equals(s, "")))
{
if (!(up))
{
s = global::haxe.lang.Runtime.concat("-", s);
}
canvas.setFont(res.tablatureFont);
double size = canvas.measureText(s);
double y = default(double);
if (up)
{
y = ((y2 - res.tablatureFont.getSize()) - (2 * this.renderer.stave.staveGroup.layout.renderer.settings.scale));
}
else
{
y = (y2 + (2 * this.renderer.stave.staveGroup.layout.renderer.settings.scale));
}
double x4 = (x2 - (size / 2));
canvas.fillText(s, x4, y);
}
}
}
}
}
}
