[mtl canvas] use same ccw test for testing against diagonal and testing against hull
This commit is contained in:
parent
2b7aadf180
commit
effd8f1dd0
2
build.sh
2
build.sh
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@ -1,6 +1,6 @@
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#!/bin/bash
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DEBUG_FLAGS="-g -O2 -DDEBUG -DLOG_COMPILE_DEBUG"
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DEBUG_FLAGS="-g -DDEBUG -DLOG_COMPILE_DEBUG"
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#DEBUG_FLAGS="-O3"
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#--------------------------------------------------------------
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@ -84,8 +84,11 @@ int main()
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bool tracked = false;
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vec2 trackPoint = {0};
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f32 zoom = 1;
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f32 startX = 300, startY = 200;
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bool singlePath = false;
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int singlePathIndex = 0;
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f64 frameTime = 0;
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@ -135,6 +138,43 @@ int main()
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startY = mousePos.y - pinY*zoom;
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} break;
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case MP_EVENT_KEYBOARD_KEY:
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{
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if(event.key.action == MP_KEY_PRESS || event.key.action == MP_KEY_REPEAT)
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{
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switch(event.key.code)
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{
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case MP_KEY_SPACE:
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singlePath = !singlePath;
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break;
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case MP_KEY_UP:
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{
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if(event.key.mods & MP_KEYMOD_SHIFT)
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{
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singlePathIndex++;
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}
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else
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{
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zoom += 0.001;
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}
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} break;
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case MP_KEY_DOWN:
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{
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if(event.key.mods & MP_KEYMOD_SHIFT)
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{
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singlePathIndex--;
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}
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else
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{
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zoom -= 0.001;
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}
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} break;
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}
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}
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} break;
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default:
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break;
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}
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@ -155,10 +195,16 @@ int main()
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mg_matrix_push((mg_mat2x3){zoom, 0, startX,
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0, zoom, startY});
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draw_tiger();
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draw_tiger(singlePath, singlePathIndex);
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if(singlePath)
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{
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printf("display single path %i\n", singlePathIndex);
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}
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printf("viewpos = (%f, %f), zoom = %f\n", startX, startY, zoom);
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mg_matrix_pop();
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/*
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// text
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mg_set_color_rgba(0, 0, 1, 1);
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mg_set_font(font);
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@ -171,7 +217,7 @@ int main()
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1./frameTime);
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mg_text_outlines(text);
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mg_fill();
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*/
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printf("Milepost vector graphics test program (frame time = %fs, fps = %f)...\n",
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frameTime,
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1./frameTime);
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@ -54,7 +54,7 @@ class svgContext:
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if rel:
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x += self.cp[0]
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y += self.cp[1]
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print("\tmg_move_to(" + f2s(x) + ", " + f2s(y) + ");")
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print("\t\tmg_move_to(" + f2s(x) + ", " + f2s(y) + ");")
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self.sp = (x, y)
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self.cp = (x, y)
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self.rp = self.cp
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@ -67,7 +67,7 @@ class svgContext:
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y2 += self.cp[1]
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x3 += self.cp[0]
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y3 += self.cp[1]
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print("\tmg_cubic_to(" + f2s(x1) + ", " + f2s(y1) + ", " + f2s(x2) + ", " + f2s(y2) + ", " + f2s(x3) + ", " + f2s(y3) + ");")
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print("\t\tmg_cubic_to(" + f2s(x1) + ", " + f2s(y1) + ", " + f2s(x2) + ", " + f2s(y2) + ", " + f2s(x3) + ", " + f2s(y3) + ");")
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self.rp = (x2, y2)
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self.cp = (x3, y3)
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@ -79,7 +79,7 @@ class svgContext:
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y3 += self.cp[1]
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x1 = 2*self.cp[0] - self.rp[0]
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y1 = 2*self.cp[1] - self.rp[1]
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print("\tmg_cubic_to(" + f2s(x1) + ", " + f2s(y1) + ", " + f2s(x2) + ", " + f2s(y2) + ", " + f2s(x3) + ", " + f2s(y3) + ");")
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print("\t\tmg_cubic_to(" + f2s(x1) + ", " + f2s(y1) + ", " + f2s(x2) + ", " + f2s(y2) + ", " + f2s(x3) + ", " + f2s(y3) + ");")
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self.rp = (x2, y2)
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self.cp = (x3, y3)
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@ -87,7 +87,7 @@ class svgContext:
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if rel:
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x1 += self.cp[0]
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y1 += self.cp[1]
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print("\tmg_line_to(" + f2s(x1) + ", " + f2s(y1) + ");")
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print("\t\tmg_line_to(" + f2s(x1) + ", " + f2s(y1) + ");")
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self.cp = (x1, y1)
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self.rp = self.cp
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@ -95,12 +95,12 @@ class svgContext:
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if rel:
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y1 += self.cp[1]
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x1 = self.cp[0]
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print("\tmg_line_to(" + f2s(x1) + ", " + f2s(y1) + ");")
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print("\t\tmg_line_to(" + f2s(x1) + ", " + f2s(y1) + ");")
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self.cp = (x1, y1)
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self.rp = self.cp
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def close_path(self):
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print("\tmg_close_path();");
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print("\t\tmg_close_path();");
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self.cp = self.rp = self.sp
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def print_path(path, ctx):
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@ -190,13 +190,17 @@ def parse_color(s):
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tree = et.parse('./Ghostscript_Tiger.svg')
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ctx = svgContext()
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print("void draw_tiger()")
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print("void draw_tiger(bool singlePath, int singlePathIndex)")
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print("{")
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for g in tree.iter('{http://www.w3.org/2000/svg}g'):
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pathIndex = 0;
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for g in tree.iter('{http://www.w3.org/2000/svg}g'):
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for path in g.findall('{http://www.w3.org/2000/svg}path'):
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ctx.reset()
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print("\tif(!singlePath || singlePathIndex == "+ str(pathIndex) +")")
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print("\t{")
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print_path(path, ctx)
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fill = g.get('fill')
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@ -205,22 +209,31 @@ for g in tree.iter('{http://www.w3.org/2000/svg}g'):
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if fill != None and fill != "none":
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(r, g, b) = parse_color(fill)
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print("\tmg_set_color_rgba(" + f2s(r) + ", " + f2s(g) + ", " + f2s(b) + ", 1);")
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print("\tmg_fill();")
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print("\t\tmg_set_color_rgba(" + f2s(r) + ", " + f2s(g) + ", " + f2s(b) + ", 1);")
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print("\t\tmg_fill();")
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print("\t}")
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pathIndex += 1
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if stroke != None and stroke != "none":
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print("\tif(!singlePath || singlePathIndex == "+ str(pathIndex) +")")
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print("\t{")
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if stroke_width != None:
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print("\tmg_set_width(" + stroke_width + ");");
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print("\t\tmg_set_width(" + stroke_width + ");");
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else:
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print("\tmg_set_width(1);");
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print("\t\tmg_set_width(1);");
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(r, g, b) = parse_color(stroke)
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if fill != None:
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ctx.reset()
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print_path(path, ctx)
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print("\tmg_set_color_rgba(" + f2s(r) + ", " + f2s(g) + ", " + f2s(b) + ", 1);")
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print("\tmg_stroke();")
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print("\t\tmg_set_color_rgba(" + f2s(r) + ", " + f2s(g) + ", " + f2s(b) + ", 1);")
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print("\t\tmg_stroke();")
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print("\t}")
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pathIndex += 1
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if (stroke == None or stroke == 'none') and (fill == None or fill == ''):
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print("error, group " + g.get("id") + " has no command")
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File diff suppressed because it is too large
Load Diff
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@ -19,7 +19,8 @@
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#define LOG_SUBSYSTEM "Graphics"
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const int MG_MTL_INPUT_BUFFERS_COUNT = 3,
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MG_MTL_TILE_SIZE = 16;
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MG_MTL_TILE_SIZE = 16,
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MG_MTL_MSAA_COUNT = 1;
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typedef struct mg_mtl_canvas_backend
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{
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@ -52,6 +53,8 @@ typedef struct mg_mtl_canvas_backend
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id<MTLBuffer> tileOpCountBuffer;
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id<MTLBuffer> screenTilesBuffer;
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int msaaCount;
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} mg_mtl_canvas_backend;
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@ -807,6 +810,9 @@ void mg_mtl_canvas_render(mg_canvas_backend* interface,
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[rasterEncoder setBuffer:backend->pathBuffer[backend->bufferIndex] offset:0 atIndex:2];
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[rasterEncoder setBuffer:backend->segmentBuffer offset:0 atIndex:3];
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[rasterEncoder setBytes:&tileSize length:sizeof(int) atIndex:4];
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[rasterEncoder setBytes:&backend->msaaCount length:sizeof(int) atIndex:5];
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[rasterEncoder setBuffer:backend->logBuffer[backend->bufferIndex] offset:0 atIndex:6];
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[rasterEncoder setBuffer:backend->logOffsetBuffer[backend->bufferIndex] offset:0 atIndex:7];
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[rasterEncoder setTexture:backend->outTexture atIndex:0];
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@ -900,6 +906,7 @@ mg_canvas_backend* mg_mtl_canvas_create(mg_surface surface)
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backend = malloc_type(mg_mtl_canvas_backend);
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memset(backend, 0, sizeof(mg_mtl_canvas_backend));
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backend->msaaCount = MG_MTL_MSAA_COUNT;
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backend->surface = surface;
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//NOTE(martin): setup interface functions
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@ -290,40 +290,6 @@ int mtl_side_of_segment(float2 p, const device mg_mtl_segment* seg, mtl_log_cont
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}
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else
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{
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// eval based on diagonal
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float alpha = (seg->box.w - seg->box.y)/(seg->box.z - seg->box.x);
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float ofs = seg->box.w - seg->box.y;
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float dx = p.x - seg->box.x;
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float dy = p.y - seg->box.y;
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if( (seg->config == MG_MTL_BR && dy >= alpha*dx)
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||(seg->config == MG_MTL_TR && dy <= ofs - alpha*dx))
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{
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side = -1;
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}
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else if( (seg->config == MG_MTL_TL && dy < alpha*dx)
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||(seg->config == MG_MTL_BL && dy > ofs - alpha*dx))
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{
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side = 1;
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}
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else
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{
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switch(seg->kind)
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{
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case MG_MTL_LINE:
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side = 1;
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break;
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case MG_MTL_QUADRATIC:
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{
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float3 ph = {p.x, p.y, 1};
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float3 klm = seg->implicitMatrix * ph;
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side = ((klm.x*klm.x - klm.y)*klm.z < 0)? -1 : 1;
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} break;
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case MG_MTL_CUBIC:
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{
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/*
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float2 a, b, c;
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switch(seg->config)
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{
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@ -349,29 +315,37 @@ int mtl_side_of_segment(float2 p, const device mg_mtl_segment* seg, mtl_log_cont
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}
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c = seg->hullVertex;
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if(ccw(b, c, p) > 0 && ccw(c, a, p) > 0)
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if(ccw(a, b, p) < 0)
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{
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float3 ph = {p.x, p.y, 1};
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float3 klm = seg->implicitMatrix * ph;
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side = (seg->sign*(klm.x*klm.x*klm.x - klm.y*klm.z) < 0)? -1 : 1;
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// other side of the diagonal
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side = (seg->config == MG_MTL_BR || seg->config == MG_MTL_TR) ? -1 : 1;
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}
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else if(ccw(b, c, p) < 0 || ccw(c, a, p) < 0)
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{
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// same side of the diagonal, but outside curve hull
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side = (seg->config == MG_MTL_BL || seg->config == MG_MTL_TL) ? -1 : 1;
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}
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else
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{
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side = (seg->config == MG_MTL_BL || seg->config == MG_MTL_TL) ? -1 : 1;
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}
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*/
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float3 ph = {p.x, p.y, 1};
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float3 hullCoords = seg->hullMatrix * ph;
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if(all(hullCoords > 0))
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// inside curve hull
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switch(seg->kind)
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{
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float3 klm = seg->implicitMatrix * ph;
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side = (seg->sign*(klm.x*klm.x*klm.x - klm.y*klm.z) < 0)? -1 : 1;
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}
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else
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{
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side = (seg->config == MG_MTL_BL || seg->config == MG_MTL_TL) ? -1 : 1;
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}
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case MG_MTL_LINE:
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side = 1;
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break;
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case MG_MTL_QUADRATIC:
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{
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float3 ph = {p.x, p.y, 1};
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float3 klm = seg->implicitMatrix * ph;
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side = ((klm.x*klm.x - klm.y)*klm.z < 0)? -1 : 1;
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} break;
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case MG_MTL_CUBIC:
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{
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float3 ph = {p.x, p.y, 1};
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float3 klm = seg->implicitMatrix * ph;
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side = (seg->sign*(klm.x*klm.x*klm.x - klm.y*klm.z) < 0)? -1 : 1;
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} break;
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}
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}
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@ -584,6 +558,7 @@ device mg_mtl_segment* mtl_segment_push(thread mtl_segment_setup_context* contex
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void mtl_line_setup(thread mtl_segment_setup_context* context, float2 p[2])
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{
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device mg_mtl_segment* seg = mtl_segment_push(context, p, MG_MTL_LINE);
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seg->hullVertex = p[0];
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mtl_segment_bin_to_tiles(context, seg);
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}
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@ -669,6 +644,8 @@ void mtl_quadratic_emit(thread mtl_segment_setup_context* context,
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{b, e, 0.},
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{c, f, g});
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seg->hullVertex = p[1];
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mtl_segment_bin_to_tiles(context, seg);
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}
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@ -1483,10 +1460,18 @@ kernel void mtl_raster(const device int* screenTilesBuffer [[buffer(0)]],
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const device mg_mtl_path* pathBuffer [[buffer(2)]],
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const device mg_mtl_segment* segmentBuffer [[buffer(3)]],
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constant int* tileSize [[buffer(4)]],
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constant int* sampleCountBuffer [[buffer(5)]],
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device char* logBuffer [[buffer(6)]],
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device atomic_int* logOffsetBuffer [[buffer(7)]],
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texture2d<float, access::write> outTexture [[texture(0)]],
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uint2 threadCoord [[thread_position_in_grid]],
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uint2 gridSize [[threads_per_grid]])
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{
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/*
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mtl_log_context log = {.buffer = logBuffer,
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.offset = logOffsetBuffer,
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.enabled = true};
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*/
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float2 pixelCoord = float2(threadCoord);
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int2 tileCoord = int2(threadCoord) / tileSize[0];
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int nTilesX = (int(gridSize.x) + tileSize[0] - 1)/tileSize[0];
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@ -1495,18 +1480,30 @@ kernel void mtl_raster(const device int* screenTilesBuffer [[buffer(0)]],
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int pathIndex = 0;
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int opIndex = screenTilesBuffer[tileIndex];
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const int MG_MTL_SAMPLE_COUNT = 8;
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const float2 sampleCoords[MG_MTL_SAMPLE_COUNT] = {pixelCoord + float2(1, 3)/16,
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pixelCoord + float2(-1, -3)/16,
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pixelCoord + float2(5, -1)/16,
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pixelCoord + float2(-3, 5)/16,
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pixelCoord + float2(-5, -5)/16,
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pixelCoord + float2(-7, 1)/16,
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pixelCoord + float2(3, -7)/16,
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pixelCoord + float2(7, 7)/16};
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const int MG_MTL_MAX_SAMPLE_COUNT = 8;
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float2 sampleCoords[MG_MTL_MAX_SAMPLE_COUNT];
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int sampleCount = sampleCountBuffer[0];
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float4 color[MG_MTL_SAMPLE_COUNT] = {0};
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int winding[MG_MTL_SAMPLE_COUNT] = {0};
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if(sampleCount == 8)
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{
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sampleCount = 8;
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sampleCoords[0] = pixelCoord + float2(1, 3)/16;
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sampleCoords[1] = pixelCoord + float2(-1, -3)/16;
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sampleCoords[2] = pixelCoord + float2(5, -1)/16;
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sampleCoords[3] = pixelCoord + float2(-3, 5)/16;
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sampleCoords[4] = pixelCoord + float2(-5, -5)/16;
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sampleCoords[5] = pixelCoord + float2(-7, 1)/16;
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sampleCoords[6] = pixelCoord + float2(3, -7)/16;
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sampleCoords[7] = pixelCoord + float2(7, 7)/16;
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}
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else
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{
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sampleCount = 1;
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sampleCoords[0] = pixelCoord;
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}
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float4 color[MG_MTL_MAX_SAMPLE_COUNT] = {0};
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int winding[MG_MTL_MAX_SAMPLE_COUNT] = {0};
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while(opIndex != -1)
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{
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@ -1517,7 +1514,7 @@ kernel void mtl_raster(const device int* screenTilesBuffer [[buffer(0)]],
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float4 pathColor = pathBuffer[pathIndex].color;
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pathColor.rgb *= pathColor.a;
|
||||
|
||||
for(int sampleIndex=0; sampleIndex<MG_MTL_SAMPLE_COUNT; sampleIndex++)
|
||||
for(int sampleIndex=0; sampleIndex<sampleCount; sampleIndex++)
|
||||
{
|
||||
bool filled = (pathBuffer[pathIndex].cmd == MG_MTL_FILL && (winding[sampleIndex] & 1))
|
||||
||(pathBuffer[pathIndex].cmd == MG_MTL_STROKE && (winding[sampleIndex] != 0));
|
||||
|
@ -1533,7 +1530,7 @@ kernel void mtl_raster(const device int* screenTilesBuffer [[buffer(0)]],
|
|||
{
|
||||
const device mg_mtl_segment* seg = &segmentBuffer[op->index];
|
||||
|
||||
for(int sampleIndex=0; sampleIndex<MG_MTL_SAMPLE_COUNT; sampleIndex++)
|
||||
for(int sampleIndex=0; sampleIndex<sampleCount; sampleIndex++)
|
||||
{
|
||||
float2 sampleCoord = sampleCoords[sampleIndex];
|
||||
|
||||
|
@ -1566,7 +1563,7 @@ kernel void mtl_raster(const device int* screenTilesBuffer [[buffer(0)]],
|
|||
float4 pathColor = pathBuffer[pathIndex].color;
|
||||
pathColor.rgb *= pathColor.a;
|
||||
|
||||
for(int sampleIndex=0; sampleIndex<MG_MTL_SAMPLE_COUNT; sampleIndex++)
|
||||
for(int sampleIndex=0; sampleIndex<sampleCount; sampleIndex++)
|
||||
{
|
||||
bool filled = (pathBuffer[pathIndex].cmd == MG_MTL_FILL && (winding[sampleIndex] & 1))
|
||||
||(pathBuffer[pathIndex].cmd == MG_MTL_STROKE && (winding[sampleIndex] != 0));
|
||||
|
@ -1576,16 +1573,16 @@ kernel void mtl_raster(const device int* screenTilesBuffer [[buffer(0)]],
|
|||
}
|
||||
pixelColor += color[sampleIndex];
|
||||
}
|
||||
pixelColor /= MG_MTL_SAMPLE_COUNT;
|
||||
pixelColor /= sampleCount;
|
||||
|
||||
/*
|
||||
if( (pixelCoord.x % tileSize[0] == 0)
|
||||
||(pixelCoord.y % tileSize[0] == 0))
|
||||
if( (int(pixelCoord.x) % tileSize[0] == 0)
|
||||
||(int(pixelCoord.y) % tileSize[0] == 0))
|
||||
{
|
||||
outTexture.write(float4(0, 0, 0, 1), uint2(pixelCoord));
|
||||
return;
|
||||
}
|
||||
*/
|
||||
//*/
|
||||
|
||||
outTexture.write(pixelColor, uint2(pixelCoord));
|
||||
}
|
||||
|
|
Loading…
Reference in New Issue