diff --git a/2C_patterns.md b/2C_patterns.md
new file mode 100644
index 0000000000000000000000000000000000000000..7f217273a3f328c3e7851850841af4519be3d92d
--- /dev/null
+++ b/2C_patterns.md
@@ -0,0 +1,644 @@
+# Complete 2-Candle Patterns
+
+| Code_Name | Pattern_Description | Pattern_Logic | Standard_Name | Image Reference |
+|---|---|---|---|---|
+| Bull_1_GAP_UP_Bull_1 | C2 completely above C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_1.png |
+| Bull_1_GAP_UP_Bull_2 | C2 completely above C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_1.png |
+| Bull_1_GAP_UP_Bull_3 | C2 completely above C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_1.png |
+| Bull_1_GAP_UP_Bull_4 | C2 completely above C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_1.png |
+| Bull_1_GAP_UP_Bear_1 | C2 completely above C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_1.png |
+| Bull_1_GAP_UP_Bear_2 | C2 completely above C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_1.png |
+| Bull_1_GAP_UP_Bear_3 | C2 completely above C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_1.png |
+| Bull_1_GAP_UP_Bear_4 | C2 completely above C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_1.png |
+| Bull_1_GAP_DOWN_Bull_1 | C2 completely below C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_1.png |
+| Bull_1_GAP_DOWN_Bull_2 | C2 completely below C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_1.png |
+| Bull_1_GAP_DOWN_Bull_3 | C2 completely below C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_2.png |
+| Bull_1_GAP_DOWN_Bull_4 | C2 completely below C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_2.png |
+| Bull_1_GAP_DOWN_Bear_1 | C2 completely below C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_2.png |
+| Bull_1_GAP_DOWN_Bear_2 | C2 completely below C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_2.png |
+| Bull_1_GAP_DOWN_Bear_3 | C2 completely below C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_2.png |
+| Bull_1_GAP_DOWN_Bear_4 | C2 completely below C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_2.png |
+| Bull_1_ENGULFING_Bull_1 | C2 body engulfs C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_2.png |
+| Bull_1_ENGULFING_Bull_2 | C2 body engulfs C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_2.png |
+| Bull_1_ENGULFING_Bull_3 | C2 body engulfs C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_2.png |
+| Bull_1_ENGULFING_Bull_4 | C2 body engulfs C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_2.png |
+| Bull_1_ENGULFING_Bear_1 | C2 body engulfs C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bearish Engulfing | plot_3.png |
+| Bull_1_ENGULFING_Bear_2 | C2 body engulfs C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bearish Engulfing | plot_3.png |
+| Bull_1_ENGULFING_Bear_3 | C2 body engulfs C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bearish Engulfing | plot_3.png |
+| Bull_1_ENGULFING_Bear_4 | C2 body engulfs C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bearish Engulfing | plot_3.png |
+| Bull_1_HARAMI_Bull_1 | C2 body inside C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_3.png |
+| Bull_1_HARAMI_Bull_2 | C2 body inside C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_3.png |
+| Bull_1_HARAMI_Bull_3 | C2 body inside C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_3.png |
+| Bull_1_HARAMI_Bull_4 | C2 body inside C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_3.png |
+| Bull_1_HARAMI_Bear_1 | C2 body inside C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bearish Harami | plot_3.png |
+| Bull_1_HARAMI_Bear_2 | C2 body inside C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bearish Harami | plot_3.png |
+| Bull_1_HARAMI_Bear_3 | C2 body inside C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bearish Harami | plot_4.png |
+| Bull_1_HARAMI_Bear_4 | C2 body inside C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bearish Harami | plot_4.png |
+| Bull_1_EQUAL_HIGH_Bull_1 | Higher shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 = H_C-1 <br> } | - | plot_4.png |
+| Bull_1_EQUAL_HIGH_Bull_2 | Higher shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 = H_C-1 <br> } | - | plot_4.png |
+| Bull_1_EQUAL_HIGH_Bull_3 | Higher shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 = H_C-1 <br> } | - | plot_4.png |
+| Bull_1_EQUAL_HIGH_Bull_4 | Higher shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 = H_C-1 <br> } | - | plot_4.png |
+| Bull_1_EQUAL_HIGH_Bear_1 | Higher shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 = H_C-1 <br> } | Tweezer Top | plot_4.png |
+| Bull_1_EQUAL_HIGH_Bear_2 | Higher shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 = H_C-1 <br> } | Tweezer Top | plot_4.png |
+| Bull_1_EQUAL_HIGH_Bear_3 | Higher shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 = H_C-1 <br> } | Tweezer Top | plot_4.png |
+| Bull_1_EQUAL_HIGH_Bear_4 | Higher shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 = H_C-1 <br> } | Tweezer Top | plot_4.png |
+| Bull_1_EQUAL_LOW_Bull_1 | Lower shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 = L_C-1 <br> } | - | plot_5.png |
+| Bull_1_EQUAL_LOW_Bull_2 | Lower shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 = L_C-1 <br> } | - | plot_5.png |
+| Bull_1_EQUAL_LOW_Bull_3 | Lower shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 = L_C-1 <br> } | - | plot_5.png |
+| Bull_1_EQUAL_LOW_Bull_4 | Lower shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 = L_C-1 <br> } | - | plot_5.png |
+| Bull_1_EQUAL_LOW_Bear_1 | Lower shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 = L_C-1 <br> } | Tweezer Top | plot_5.png |
+| Bull_1_EQUAL_LOW_Bear_2 | Lower shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 = L_C-1 <br> } | - | plot_5.png |
+| Bull_1_EQUAL_LOW_Bear_3 | Lower shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 = L_C-1 <br> } | - | plot_5.png |
+| Bull_1_EQUAL_LOW_Bear_4 | Lower shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 = L_C-1 <br> } | - | plot_5.png |
+| Bull_1_MEETING_LINES_Bull_1 | Close of C2 matches Close of C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> C_C0 = C_C-1 <br> } | - | plot_5.png |
+| Bull_1_MEETING_LINES_Bull_2 | Close of C2 matches Close of C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> C_C0 = C_C-1 <br> } | - | plot_5.png |
+| Bull_1_MEETING_LINES_Bull_3 | Close of C2 matches Close of C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> C_C0 = C_C-1 <br> } | - | plot_6.png |
+| Bull_1_MEETING_LINES_Bull_4 | Close of C2 matches Close of C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> C_C0 = C_C-1 <br> } | - | plot_6.png |
+| Bull_1_MEETING_LINES_Bear_1 | Close of C2 matches Close of C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> C_C0 = C_C-1 <br> } | Bearish Meeting Lines | plot_6.png |
+| Bull_1_MEETING_LINES_Bear_2 | Close of C2 matches Close of C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> C_C0 = C_C-1 <br> } | Bearish Meeting Lines | plot_6.png |
+| Bull_1_MEETING_LINES_Bear_3 | Close of C2 matches Close of C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> C_C0 = C_C-1 <br> } | Bearish Meeting Lines | plot_6.png |
+| Bull_1_MEETING_LINES_Bear_4 | Close of C2 matches Close of C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> C_C0 = C_C-1 <br> } | Bearish Meeting Lines | plot_6.png |
+| Bull_1_OVERLAP_UPPER_Bull_1 | C2 centered on C1 High/Open | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_6.png |
+| Bull_1_OVERLAP_UPPER_Bull_2 | C2 centered on C1 High/Open | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_6.png |
+| Bull_1_OVERLAP_UPPER_Bull_3 | C2 centered on C1 High/Open | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_6.png |
+| Bull_1_OVERLAP_UPPER_Bull_4 | C2 centered on C1 High/Open | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_6.png |
+| Bull_1_OVERLAP_UPPER_Bear_1 | C2 centered on C1 High/Open | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_7.png |
+| Bull_1_OVERLAP_UPPER_Bear_2 | C2 centered on C1 High/Open | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_7.png |
+| Bull_1_OVERLAP_UPPER_Bear_3 | C2 centered on C1 High/Open | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | Tweezer Top | plot_7.png |
+| Bull_1_OVERLAP_UPPER_Bear_4 | C2 centered on C1 High/Open | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | Tweezer Top | plot_7.png |
+| Bull_1_OVERLAP_LOWER_Bull_1 | C2 centered on C1 Low/Close | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_7.png |
+| Bull_1_OVERLAP_LOWER_Bull_2 | C2 centered on C1 Low/Close | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_7.png |
+| Bull_1_OVERLAP_LOWER_Bull_3 | C2 centered on C1 Low/Close | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_7.png |
+| Bull_1_OVERLAP_LOWER_Bull_4 | C2 centered on C1 Low/Close | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_7.png |
+| Bull_1_OVERLAP_LOWER_Bear_1 | C2 centered on C1 Low/Close | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_7.png |
+| Bull_1_OVERLAP_LOWER_Bear_2 | C2 centered on C1 Low/Close | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_7.png |
+| Bull_1_OVERLAP_LOWER_Bear_3 | C2 centered on C1 Low/Close | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_8.png |
+| Bull_1_OVERLAP_LOWER_Bear_4 | C2 centered on C1 Low/Close | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_8.png |
+| Bull_1_PIERCING_CLOUD_Bull_1 | Large gap and heavy overlap | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_8.png |
+| Bull_1_PIERCING_CLOUD_Bull_2 | Large gap and heavy overlap | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_8.png |
+| Bull_1_PIERCING_CLOUD_Bull_3 | Large gap and heavy overlap | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_8.png |
+| Bull_1_PIERCING_CLOUD_Bull_4 | Large gap and heavy overlap | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_8.png |
+| Bull_1_PIERCING_CLOUD_Bear_1 | Large gap and heavy overlap | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bearish Engulfing | plot_8.png |
+| Bull_1_PIERCING_CLOUD_Bear_2 | Large gap and heavy overlap | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bearish Engulfing | plot_8.png |
+| Bull_1_PIERCING_CLOUD_Bear_3 | Large gap and heavy overlap | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bearish Engulfing | plot_8.png |
+| Bull_1_PIERCING_CLOUD_Bear_4 | Large gap and heavy overlap | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bearish Engulfing | plot_8.png |
+| Bull_2_GAP_UP_Bull_1 | C2 completely above C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_9.png |
+| Bull_2_GAP_UP_Bull_2 | C2 completely above C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_9.png |
+| Bull_2_GAP_UP_Bull_3 | C2 completely above C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_9.png |
+| Bull_2_GAP_UP_Bull_4 | C2 completely above C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_9.png |
+| Bull_2_GAP_UP_Bear_1 | C2 completely above C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_9.png |
+| Bull_2_GAP_UP_Bear_2 | C2 completely above C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_9.png |
+| Bull_2_GAP_UP_Bear_3 | C2 completely above C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_9.png |
+| Bull_2_GAP_UP_Bear_4 | C2 completely above C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_9.png |
+| Bull_2_GAP_DOWN_Bull_1 | C2 completely below C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_9.png |
+| Bull_2_GAP_DOWN_Bull_2 | C2 completely below C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_9.png |
+| Bull_2_GAP_DOWN_Bull_3 | C2 completely below C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_10.png |
+| Bull_2_GAP_DOWN_Bull_4 | C2 completely below C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_10.png |
+| Bull_2_GAP_DOWN_Bear_1 | C2 completely below C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_10.png |
+| Bull_2_GAP_DOWN_Bear_2 | C2 completely below C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_10.png |
+| Bull_2_GAP_DOWN_Bear_3 | C2 completely below C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_10.png |
+| Bull_2_GAP_DOWN_Bear_4 | C2 completely below C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_10.png |
+| Bull_2_ENGULFING_Bull_1 | C2 body engulfs C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_10.png |
+| Bull_2_ENGULFING_Bull_2 | C2 body engulfs C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_10.png |
+| Bull_2_ENGULFING_Bull_3 | C2 body engulfs C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_10.png |
+| Bull_2_ENGULFING_Bull_4 | C2 body engulfs C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_10.png |
+| Bull_2_ENGULFING_Bear_1 | C2 body engulfs C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bearish Engulfing | plot_11.png |
+| Bull_2_ENGULFING_Bear_2 | C2 body engulfs C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bearish Engulfing | plot_11.png |
+| Bull_2_ENGULFING_Bear_3 | C2 body engulfs C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bearish Engulfing | plot_11.png |
+| Bull_2_ENGULFING_Bear_4 | C2 body engulfs C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bearish Engulfing | plot_11.png |
+| Bull_2_HARAMI_Bull_1 | C2 body inside C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_11.png |
+| Bull_2_HARAMI_Bull_2 | C2 body inside C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_11.png |
+| Bull_2_HARAMI_Bull_3 | C2 body inside C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_11.png |
+| Bull_2_HARAMI_Bull_4 | C2 body inside C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_11.png |
+| Bull_2_HARAMI_Bear_1 | C2 body inside C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bearish Harami, Tweezer Top | plot_11.png |
+| Bull_2_HARAMI_Bear_2 | C2 body inside C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bearish Harami, Tweezer Top | plot_11.png |
+| Bull_2_HARAMI_Bear_3 | C2 body inside C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bearish Harami | plot_12.png |
+| Bull_2_HARAMI_Bear_4 | C2 body inside C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bearish Harami | plot_12.png |
+| Bull_2_EQUAL_HIGH_Bull_1 | Higher shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 = H_C-1 <br> } | - | plot_12.png |
+| Bull_2_EQUAL_HIGH_Bull_2 | Higher shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 = H_C-1 <br> } | - | plot_12.png |
+| Bull_2_EQUAL_HIGH_Bull_3 | Higher shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 = H_C-1 <br> } | - | plot_12.png |
+| Bull_2_EQUAL_HIGH_Bull_4 | Higher shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 = H_C-1 <br> } | - | plot_12.png |
+| Bull_2_EQUAL_HIGH_Bear_1 | Higher shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 = H_C-1 <br> } | Tweezer Top | plot_12.png |
+| Bull_2_EQUAL_HIGH_Bear_2 | Higher shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 = H_C-1 <br> } | Tweezer Top | plot_12.png |
+| Bull_2_EQUAL_HIGH_Bear_3 | Higher shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 = H_C-1 <br> } | Tweezer Top | plot_12.png |
+| Bull_2_EQUAL_HIGH_Bear_4 | Higher shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 = H_C-1 <br> } | Tweezer Top | plot_12.png |
+| Bull_2_EQUAL_LOW_Bull_1 | Lower shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 = L_C-1 <br> } | - | plot_13.png |
+| Bull_2_EQUAL_LOW_Bull_2 | Lower shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 = L_C-1 <br> } | - | plot_13.png |
+| Bull_2_EQUAL_LOW_Bull_3 | Lower shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 = L_C-1 <br> } | - | plot_13.png |
+| Bull_2_EQUAL_LOW_Bull_4 | Lower shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 = L_C-1 <br> } | - | plot_13.png |
+| Bull_2_EQUAL_LOW_Bear_1 | Lower shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 = L_C-1 <br> } | - | plot_13.png |
+| Bull_2_EQUAL_LOW_Bear_2 | Lower shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 = L_C-1 <br> } | Tweezer Top | plot_13.png |
+| Bull_2_EQUAL_LOW_Bear_3 | Lower shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 = L_C-1 <br> } | Tweezer Top | plot_13.png |
+| Bull_2_EQUAL_LOW_Bear_4 | Lower shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 = L_C-1 <br> } | - | plot_13.png |
+| Bull_2_MEETING_LINES_Bull_1 | Close of C2 matches Close of C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> C_C0 = C_C-1 <br> } | - | plot_13.png |
+| Bull_2_MEETING_LINES_Bull_2 | Close of C2 matches Close of C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> C_C0 = C_C-1 <br> } | - | plot_13.png |
+| Bull_2_MEETING_LINES_Bull_3 | Close of C2 matches Close of C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> C_C0 = C_C-1 <br> } | - | plot_14.png |
+| Bull_2_MEETING_LINES_Bull_4 | Close of C2 matches Close of C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> C_C0 = C_C-1 <br> } | - | plot_14.png |
+| Bull_2_MEETING_LINES_Bear_1 | Close of C2 matches Close of C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> C_C0 = C_C-1 <br> } | Bearish Meeting Lines | plot_14.png |
+| Bull_2_MEETING_LINES_Bear_2 | Close of C2 matches Close of C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> C_C0 = C_C-1 <br> } | Bearish Meeting Lines | plot_14.png |
+| Bull_2_MEETING_LINES_Bear_3 | Close of C2 matches Close of C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> C_C0 = C_C-1 <br> } | Bearish Meeting Lines | plot_14.png |
+| Bull_2_MEETING_LINES_Bear_4 | Close of C2 matches Close of C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> C_C0 = C_C-1 <br> } | Bearish Meeting Lines | plot_14.png |
+| Bull_2_OVERLAP_UPPER_Bull_1 | C2 centered on C1 High/Open | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_14.png |
+| Bull_2_OVERLAP_UPPER_Bull_2 | C2 centered on C1 High/Open | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_14.png |
+| Bull_2_OVERLAP_UPPER_Bull_3 | C2 centered on C1 High/Open | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_14.png |
+| Bull_2_OVERLAP_UPPER_Bull_4 | C2 centered on C1 High/Open | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_14.png |
+| Bull_2_OVERLAP_UPPER_Bear_1 | C2 centered on C1 High/Open | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_15.png |
+| Bull_2_OVERLAP_UPPER_Bear_2 | C2 centered on C1 High/Open | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_15.png |
+| Bull_2_OVERLAP_UPPER_Bear_3 | C2 centered on C1 High/Open | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_15.png |
+| Bull_2_OVERLAP_UPPER_Bear_4 | C2 centered on C1 High/Open | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_15.png |
+| Bull_2_OVERLAP_LOWER_Bull_1 | C2 centered on C1 Low/Close | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_15.png |
+| Bull_2_OVERLAP_LOWER_Bull_2 | C2 centered on C1 Low/Close | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_15.png |
+| Bull_2_OVERLAP_LOWER_Bull_3 | C2 centered on C1 Low/Close | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_15.png |
+| Bull_2_OVERLAP_LOWER_Bull_4 | C2 centered on C1 Low/Close | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_15.png |
+| Bull_2_OVERLAP_LOWER_Bear_1 | C2 centered on C1 Low/Close | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | Tweezer Top | plot_15.png |
+| Bull_2_OVERLAP_LOWER_Bear_2 | C2 centered on C1 Low/Close | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | Tweezer Top | plot_15.png |
+| Bull_2_OVERLAP_LOWER_Bear_3 | C2 centered on C1 Low/Close | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_16.png |
+| Bull_2_OVERLAP_LOWER_Bear_4 | C2 centered on C1 Low/Close | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_16.png |
+| Bull_2_PIERCING_CLOUD_Bull_1 | Large gap and heavy overlap | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_16.png |
+| Bull_2_PIERCING_CLOUD_Bull_2 | Large gap and heavy overlap | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_16.png |
+| Bull_2_PIERCING_CLOUD_Bull_3 | Large gap and heavy overlap | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_16.png |
+| Bull_2_PIERCING_CLOUD_Bull_4 | Large gap and heavy overlap | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_16.png |
+| Bull_2_PIERCING_CLOUD_Bear_1 | Large gap and heavy overlap | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bearish Engulfing | plot_16.png |
+| Bull_2_PIERCING_CLOUD_Bear_2 | Large gap and heavy overlap | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bearish Engulfing | plot_16.png |
+| Bull_2_PIERCING_CLOUD_Bear_3 | Large gap and heavy overlap | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bearish Engulfing | plot_16.png |
+| Bull_2_PIERCING_CLOUD_Bear_4 | Large gap and heavy overlap | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 > L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bearish Engulfing | plot_16.png |
+| Bull_3_GAP_UP_Bull_1 | C2 completely above C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_17.png |
+| Bull_3_GAP_UP_Bull_2 | C2 completely above C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_17.png |
+| Bull_3_GAP_UP_Bull_3 | C2 completely above C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_17.png |
+| Bull_3_GAP_UP_Bull_4 | C2 completely above C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_17.png |
+| Bull_3_GAP_UP_Bear_1 | C2 completely above C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_17.png |
+| Bull_3_GAP_UP_Bear_2 | C2 completely above C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_17.png |
+| Bull_3_GAP_UP_Bear_3 | C2 completely above C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_17.png |
+| Bull_3_GAP_UP_Bear_4 | C2 completely above C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_17.png |
+| Bull_3_GAP_DOWN_Bull_1 | C2 completely below C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_17.png |
+| Bull_3_GAP_DOWN_Bull_2 | C2 completely below C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_17.png |
+| Bull_3_GAP_DOWN_Bull_3 | C2 completely below C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_18.png |
+| Bull_3_GAP_DOWN_Bull_4 | C2 completely below C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_18.png |
+| Bull_3_GAP_DOWN_Bear_1 | C2 completely below C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_18.png |
+| Bull_3_GAP_DOWN_Bear_2 | C2 completely below C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_18.png |
+| Bull_3_GAP_DOWN_Bear_3 | C2 completely below C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_18.png |
+| Bull_3_GAP_DOWN_Bear_4 | C2 completely below C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_18.png |
+| Bull_3_ENGULFING_Bull_1 | C2 body engulfs C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_18.png |
+| Bull_3_ENGULFING_Bull_2 | C2 body engulfs C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_18.png |
+| Bull_3_ENGULFING_Bull_3 | C2 body engulfs C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_18.png |
+| Bull_3_ENGULFING_Bull_4 | C2 body engulfs C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_18.png |
+| Bull_3_ENGULFING_Bear_1 | C2 body engulfs C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bearish Engulfing | plot_19.png |
+| Bull_3_ENGULFING_Bear_2 | C2 body engulfs C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bearish Engulfing | plot_19.png |
+| Bull_3_ENGULFING_Bear_3 | C2 body engulfs C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bearish Engulfing | plot_19.png |
+| Bull_3_ENGULFING_Bear_4 | C2 body engulfs C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bearish Engulfing | plot_19.png |
+| Bull_3_HARAMI_Bull_1 | C2 body inside C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_19.png |
+| Bull_3_HARAMI_Bull_2 | C2 body inside C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_19.png |
+| Bull_3_HARAMI_Bull_3 | C2 body inside C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_19.png |
+| Bull_3_HARAMI_Bull_4 | C2 body inside C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_19.png |
+| Bull_3_HARAMI_Bear_1 | C2 body inside C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bearish Harami | plot_19.png |
+| Bull_3_HARAMI_Bear_2 | C2 body inside C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bearish Harami | plot_19.png |
+| Bull_3_HARAMI_Bear_3 | C2 body inside C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bearish Harami | plot_20.png |
+| Bull_3_HARAMI_Bear_4 | C2 body inside C1 body | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bearish Harami | plot_20.png |
+| Bull_3_EQUAL_HIGH_Bull_1 | Higher shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 = H_C-1 <br> } | - | plot_20.png |
+| Bull_3_EQUAL_HIGH_Bull_2 | Higher shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 = H_C-1 <br> } | - | plot_20.png |
+| Bull_3_EQUAL_HIGH_Bull_3 | Higher shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 = H_C-1 <br> } | - | plot_20.png |
+| Bull_3_EQUAL_HIGH_Bull_4 | Higher shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 = H_C-1 <br> } | - | plot_20.png |
+| Bull_3_EQUAL_HIGH_Bear_1 | Higher shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 = H_C-1 <br> } | Tweezer Top | plot_20.png |
+| Bull_3_EQUAL_HIGH_Bear_2 | Higher shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 = H_C-1 <br> } | Tweezer Top | plot_20.png |
+| Bull_3_EQUAL_HIGH_Bear_3 | Higher shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 = H_C-1 <br> } | Tweezer Top | plot_20.png |
+| Bull_3_EQUAL_HIGH_Bear_4 | Higher shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 = H_C-1 <br> } | Tweezer Top | plot_20.png |
+| Bull_3_EQUAL_LOW_Bull_1 | Lower shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 = L_C-1 <br> } | - | plot_21.png |
+| Bull_3_EQUAL_LOW_Bull_2 | Lower shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 = L_C-1 <br> } | - | plot_21.png |
+| Bull_3_EQUAL_LOW_Bull_3 | Lower shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 = L_C-1 <br> } | - | plot_21.png |
+| Bull_3_EQUAL_LOW_Bull_4 | Lower shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 = L_C-1 <br> } | - | plot_21.png |
+| Bull_3_EQUAL_LOW_Bear_1 | Lower shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 = L_C-1 <br> } | - | plot_21.png |
+| Bull_3_EQUAL_LOW_Bear_2 | Lower shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 = L_C-1 <br> } | Tweezer Top | plot_21.png |
+| Bull_3_EQUAL_LOW_Bear_3 | Lower shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 = L_C-1 <br> } | Tweezer Top | plot_21.png |
+| Bull_3_EQUAL_LOW_Bear_4 | Lower shadow matches exactly | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 = L_C-1 <br> } | - | plot_21.png |
+| Bull_3_MEETING_LINES_Bull_1 | Close of C2 matches Close of C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> C_C0 = C_C-1 <br> } | - | plot_21.png |
+| Bull_3_MEETING_LINES_Bull_2 | Close of C2 matches Close of C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> C_C0 = C_C-1 <br> } | - | plot_21.png |
+| Bull_3_MEETING_LINES_Bull_3 | Close of C2 matches Close of C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> C_C0 = C_C-1 <br> } | - | plot_22.png |
+| Bull_3_MEETING_LINES_Bull_4 | Close of C2 matches Close of C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> C_C0 = C_C-1 <br> } | - | plot_22.png |
+| Bull_3_MEETING_LINES_Bear_1 | Close of C2 matches Close of C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> C_C0 = C_C-1 <br> } | Bearish Meeting Lines | plot_22.png |
+| Bull_3_MEETING_LINES_Bear_2 | Close of C2 matches Close of C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> C_C0 = C_C-1 <br> } | Bearish Meeting Lines | plot_22.png |
+| Bull_3_MEETING_LINES_Bear_3 | Close of C2 matches Close of C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> C_C0 = C_C-1 <br> } | Bearish Meeting Lines | plot_22.png |
+| Bull_3_MEETING_LINES_Bear_4 | Close of C2 matches Close of C1 | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> C_C0 = C_C-1 <br> } | Bearish Meeting Lines | plot_22.png |
+| Bull_3_OVERLAP_UPPER_Bull_1 | C2 centered on C1 High/Open | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_22.png |
+| Bull_3_OVERLAP_UPPER_Bull_2 | C2 centered on C1 High/Open | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_22.png |
+| Bull_3_OVERLAP_UPPER_Bull_3 | C2 centered on C1 High/Open | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_22.png |
+| Bull_3_OVERLAP_UPPER_Bull_4 | C2 centered on C1 High/Open | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_22.png |
+| Bull_3_OVERLAP_UPPER_Bear_1 | C2 centered on C1 High/Open | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_23.png |
+| Bull_3_OVERLAP_UPPER_Bear_2 | C2 centered on C1 High/Open | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_23.png |
+| Bull_3_OVERLAP_UPPER_Bear_3 | C2 centered on C1 High/Open | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | Tweezer Top | plot_23.png |
+| Bull_3_OVERLAP_UPPER_Bear_4 | C2 centered on C1 High/Open | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | Tweezer Top | plot_23.png |
+| Bull_3_OVERLAP_LOWER_Bull_1 | C2 centered on C1 Low/Close | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_23.png |
+| Bull_3_OVERLAP_LOWER_Bull_2 | C2 centered on C1 Low/Close | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_23.png |
+| Bull_3_OVERLAP_LOWER_Bull_3 | C2 centered on C1 Low/Close | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_23.png |
+| Bull_3_OVERLAP_LOWER_Bull_4 | C2 centered on C1 Low/Close | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_23.png |
+| Bull_3_OVERLAP_LOWER_Bear_1 | C2 centered on C1 Low/Close | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_23.png |
+| Bull_3_OVERLAP_LOWER_Bear_2 | C2 centered on C1 Low/Close | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_23.png |
+| Bull_3_OVERLAP_LOWER_Bear_3 | C2 centered on C1 Low/Close | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_24.png |
+| Bull_3_OVERLAP_LOWER_Bear_4 | C2 centered on C1 Low/Close | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_24.png |
+| Bull_3_PIERCING_CLOUD_Bull_1 | Large gap and heavy overlap | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_24.png |
+| Bull_3_PIERCING_CLOUD_Bull_2 | Large gap and heavy overlap | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_24.png |
+| Bull_3_PIERCING_CLOUD_Bull_3 | Large gap and heavy overlap | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_24.png |
+| Bull_3_PIERCING_CLOUD_Bull_4 | Large gap and heavy overlap | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_24.png |
+| Bull_3_PIERCING_CLOUD_Bear_1 | Large gap and heavy overlap | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bearish Engulfing | plot_24.png |
+| Bull_3_PIERCING_CLOUD_Bear_2 | Large gap and heavy overlap | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bearish Engulfing | plot_24.png |
+| Bull_3_PIERCING_CLOUD_Bear_3 | Large gap and heavy overlap | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bearish Engulfing | plot_24.png |
+| Bull_3_PIERCING_CLOUD_Bear_4 | Large gap and heavy overlap | { <br> H_C-1 > C_C-1 & O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bearish Engulfing | plot_24.png |
+| Bull_4_GAP_UP_Bull_1 | C2 completely above C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_25.png |
+| Bull_4_GAP_UP_Bull_2 | C2 completely above C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_25.png |
+| Bull_4_GAP_UP_Bull_3 | C2 completely above C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_25.png |
+| Bull_4_GAP_UP_Bull_4 | C2 completely above C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_25.png |
+| Bull_4_GAP_UP_Bear_1 | C2 completely above C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_25.png |
+| Bull_4_GAP_UP_Bear_2 | C2 completely above C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_25.png |
+| Bull_4_GAP_UP_Bear_3 | C2 completely above C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_25.png |
+| Bull_4_GAP_UP_Bear_4 | C2 completely above C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_25.png |
+| Bull_4_GAP_DOWN_Bull_1 | C2 completely below C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_25.png |
+| Bull_4_GAP_DOWN_Bull_2 | C2 completely below C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_25.png |
+| Bull_4_GAP_DOWN_Bull_3 | C2 completely below C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_26.png |
+| Bull_4_GAP_DOWN_Bull_4 | C2 completely below C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_26.png |
+| Bull_4_GAP_DOWN_Bear_1 | C2 completely below C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_26.png |
+| Bull_4_GAP_DOWN_Bear_2 | C2 completely below C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_26.png |
+| Bull_4_GAP_DOWN_Bear_3 | C2 completely below C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_26.png |
+| Bull_4_GAP_DOWN_Bear_4 | C2 completely below C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 < L_C-1 <br> } | Bearish Kicking | plot_26.png |
+| Bull_4_ENGULFING_Bull_1 | C2 body engulfs C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_26.png |
+| Bull_4_ENGULFING_Bull_2 | C2 body engulfs C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_26.png |
+| Bull_4_ENGULFING_Bull_3 | C2 body engulfs C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_26.png |
+| Bull_4_ENGULFING_Bull_4 | C2 body engulfs C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_26.png |
+| Bull_4_ENGULFING_Bear_1 | C2 body engulfs C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bearish Engulfing | plot_27.png |
+| Bull_4_ENGULFING_Bear_2 | C2 body engulfs C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bearish Engulfing | plot_27.png |
+| Bull_4_ENGULFING_Bear_3 | C2 body engulfs C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bearish Engulfing | plot_27.png |
+| Bull_4_ENGULFING_Bear_4 | C2 body engulfs C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bearish Engulfing | plot_27.png |
+| Bull_4_HARAMI_Bull_1 | C2 body inside C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_27.png |
+| Bull_4_HARAMI_Bull_2 | C2 body inside C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_27.png |
+| Bull_4_HARAMI_Bull_3 | C2 body inside C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_27.png |
+| Bull_4_HARAMI_Bull_4 | C2 body inside C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_27.png |
+| Bull_4_HARAMI_Bear_1 | C2 body inside C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bearish Harami, Tweezer Top | plot_27.png |
+| Bull_4_HARAMI_Bear_2 | C2 body inside C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bearish Harami, Tweezer Top | plot_27.png |
+| Bull_4_HARAMI_Bear_3 | C2 body inside C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bearish Harami | plot_28.png |
+| Bull_4_HARAMI_Bear_4 | C2 body inside C1 body | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bearish Harami | plot_28.png |
+| Bull_4_EQUAL_HIGH_Bull_1 | Higher shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 = H_C-1 <br> } | - | plot_28.png |
+| Bull_4_EQUAL_HIGH_Bull_2 | Higher shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 = H_C-1 <br> } | - | plot_28.png |
+| Bull_4_EQUAL_HIGH_Bull_3 | Higher shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 = H_C-1 <br> } | - | plot_28.png |
+| Bull_4_EQUAL_HIGH_Bull_4 | Higher shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 = H_C-1 <br> } | - | plot_28.png |
+| Bull_4_EQUAL_HIGH_Bear_1 | Higher shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 = H_C-1 <br> } | Tweezer Top | plot_28.png |
+| Bull_4_EQUAL_HIGH_Bear_2 | Higher shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 = H_C-1 <br> } | Tweezer Top | plot_28.png |
+| Bull_4_EQUAL_HIGH_Bear_3 | Higher shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 = H_C-1 <br> } | Tweezer Top | plot_28.png |
+| Bull_4_EQUAL_HIGH_Bear_4 | Higher shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 = H_C-1 <br> } | Tweezer Top | plot_28.png |
+| Bull_4_EQUAL_LOW_Bull_1 | Lower shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 = L_C-1 <br> } | - | plot_29.png |
+| Bull_4_EQUAL_LOW_Bull_2 | Lower shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 = L_C-1 <br> } | - | plot_29.png |
+| Bull_4_EQUAL_LOW_Bull_3 | Lower shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 = L_C-1 <br> } | - | plot_29.png |
+| Bull_4_EQUAL_LOW_Bull_4 | Lower shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 = L_C-1 <br> } | - | plot_29.png |
+| Bull_4_EQUAL_LOW_Bear_1 | Lower shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 = L_C-1 <br> } | - | plot_29.png |
+| Bull_4_EQUAL_LOW_Bear_2 | Lower shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 = L_C-1 <br> } | - | plot_29.png |
+| Bull_4_EQUAL_LOW_Bear_3 | Lower shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 = L_C-1 <br> } | - | plot_29.png |
+| Bull_4_EQUAL_LOW_Bear_4 | Lower shadow matches exactly | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 = L_C-1 <br> } | Tweezer Top | plot_29.png |
+| Bull_4_MEETING_LINES_Bull_1 | Close of C2 matches Close of C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> C_C0 = C_C-1 <br> } | - | plot_29.png |
+| Bull_4_MEETING_LINES_Bull_2 | Close of C2 matches Close of C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> C_C0 = C_C-1 <br> } | - | plot_29.png |
+| Bull_4_MEETING_LINES_Bull_3 | Close of C2 matches Close of C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> C_C0 = C_C-1 <br> } | - | plot_30.png |
+| Bull_4_MEETING_LINES_Bull_4 | Close of C2 matches Close of C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> C_C0 = C_C-1 <br> } | - | plot_30.png |
+| Bull_4_MEETING_LINES_Bear_1 | Close of C2 matches Close of C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> C_C0 = C_C-1 <br> } | Bearish Meeting Lines | plot_30.png |
+| Bull_4_MEETING_LINES_Bear_2 | Close of C2 matches Close of C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> C_C0 = C_C-1 <br> } | Bearish Meeting Lines | plot_30.png |
+| Bull_4_MEETING_LINES_Bear_3 | Close of C2 matches Close of C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> C_C0 = C_C-1 <br> } | Bearish Meeting Lines | plot_30.png |
+| Bull_4_MEETING_LINES_Bear_4 | Close of C2 matches Close of C1 | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> C_C0 = C_C-1 <br> } | Bearish Meeting Lines | plot_30.png |
+| Bull_4_OVERLAP_UPPER_Bull_1 | C2 centered on C1 High/Open | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_30.png |
+| Bull_4_OVERLAP_UPPER_Bull_2 | C2 centered on C1 High/Open | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_30.png |
+| Bull_4_OVERLAP_UPPER_Bull_3 | C2 centered on C1 High/Open | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_30.png |
+| Bull_4_OVERLAP_UPPER_Bull_4 | C2 centered on C1 High/Open | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_30.png |
+| Bull_4_OVERLAP_UPPER_Bear_1 | C2 centered on C1 High/Open | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_31.png |
+| Bull_4_OVERLAP_UPPER_Bear_2 | C2 centered on C1 High/Open | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_31.png |
+| Bull_4_OVERLAP_UPPER_Bear_3 | C2 centered on C1 High/Open | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_31.png |
+| Bull_4_OVERLAP_UPPER_Bear_4 | C2 centered on C1 High/Open | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_31.png |
+| Bull_4_OVERLAP_LOWER_Bull_1 | C2 centered on C1 Low/Close | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_31.png |
+| Bull_4_OVERLAP_LOWER_Bull_2 | C2 centered on C1 Low/Close | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_31.png |
+| Bull_4_OVERLAP_LOWER_Bull_3 | C2 centered on C1 Low/Close | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_31.png |
+| Bull_4_OVERLAP_LOWER_Bull_4 | C2 centered on C1 Low/Close | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_31.png |
+| Bull_4_OVERLAP_LOWER_Bear_1 | C2 centered on C1 Low/Close | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | Tweezer Top | plot_31.png |
+| Bull_4_OVERLAP_LOWER_Bear_2 | C2 centered on C1 Low/Close | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | Tweezer Top | plot_31.png |
+| Bull_4_OVERLAP_LOWER_Bear_3 | C2 centered on C1 Low/Close | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_32.png |
+| Bull_4_OVERLAP_LOWER_Bear_4 | C2 centered on C1 Low/Close | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_32.png |
+| Bull_4_PIERCING_CLOUD_Bull_1 | Large gap and heavy overlap | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_32.png |
+| Bull_4_PIERCING_CLOUD_Bull_2 | Large gap and heavy overlap | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_32.png |
+| Bull_4_PIERCING_CLOUD_Bull_3 | Large gap and heavy overlap | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_32.png |
+| Bull_4_PIERCING_CLOUD_Bull_4 | Large gap and heavy overlap | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_32.png |
+| Bull_4_PIERCING_CLOUD_Bear_1 | Large gap and heavy overlap | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bearish Engulfing | plot_32.png |
+| Bull_4_PIERCING_CLOUD_Bear_2 | Large gap and heavy overlap | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bearish Engulfing | plot_32.png |
+| Bull_4_PIERCING_CLOUD_Bear_3 | Large gap and heavy overlap | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bearish Engulfing | plot_32.png |
+| Bull_4_PIERCING_CLOUD_Bear_4 | Large gap and heavy overlap | { <br> (C_C-1 = H_C-1) > O_C-1 & L_C-1 <br> C_C-1 > O_C-1 & L_C-1 <br> O_C-1 = L_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bearish Engulfing | plot_32.png |
+| Bear_1_GAP_UP_Bull_1 | C2 completely above C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_33.png |
+| Bear_1_GAP_UP_Bull_2 | C2 completely above C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_33.png |
+| Bear_1_GAP_UP_Bull_3 | C2 completely above C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_33.png |
+| Bear_1_GAP_UP_Bull_4 | C2 completely above C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_33.png |
+| Bear_1_GAP_UP_Bear_1 | C2 completely above C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_33.png |
+| Bear_1_GAP_UP_Bear_2 | C2 completely above C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_33.png |
+| Bear_1_GAP_UP_Bear_3 | C2 completely above C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_33.png |
+| Bear_1_GAP_UP_Bear_4 | C2 completely above C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_33.png |
+| Bear_1_GAP_DOWN_Bull_1 | C2 completely below C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_33.png |
+| Bear_1_GAP_DOWN_Bull_2 | C2 completely below C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_33.png |
+| Bear_1_GAP_DOWN_Bull_3 | C2 completely below C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_34.png |
+| Bear_1_GAP_DOWN_Bull_4 | C2 completely below C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_34.png |
+| Bear_1_GAP_DOWN_Bear_1 | C2 completely below C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_34.png |
+| Bear_1_GAP_DOWN_Bear_2 | C2 completely below C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_34.png |
+| Bear_1_GAP_DOWN_Bear_3 | C2 completely below C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_34.png |
+| Bear_1_GAP_DOWN_Bear_4 | C2 completely below C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_34.png |
+| Bear_1_ENGULFING_Bull_1 | C2 body engulfs C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bullish Engulfing | plot_34.png |
+| Bear_1_ENGULFING_Bull_2 | C2 body engulfs C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bullish Engulfing | plot_34.png |
+| Bear_1_ENGULFING_Bull_3 | C2 body engulfs C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bullish Engulfing | plot_34.png |
+| Bear_1_ENGULFING_Bull_4 | C2 body engulfs C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bullish Engulfing | plot_34.png |
+| Bear_1_ENGULFING_Bear_1 | C2 body engulfs C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_35.png |
+| Bear_1_ENGULFING_Bear_2 | C2 body engulfs C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_35.png |
+| Bear_1_ENGULFING_Bear_3 | C2 body engulfs C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_35.png |
+| Bear_1_ENGULFING_Bear_4 | C2 body engulfs C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_35.png |
+| Bear_1_HARAMI_Bull_1 | C2 body inside C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bullish Harami | plot_35.png |
+| Bear_1_HARAMI_Bull_2 | C2 body inside C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bullish Harami | plot_35.png |
+| Bear_1_HARAMI_Bull_3 | C2 body inside C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bullish Harami | plot_35.png |
+| Bear_1_HARAMI_Bull_4 | C2 body inside C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bullish Harami | plot_35.png |
+| Bear_1_HARAMI_Bear_1 | C2 body inside C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_35.png |
+| Bear_1_HARAMI_Bear_2 | C2 body inside C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_35.png |
+| Bear_1_HARAMI_Bear_3 | C2 body inside C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_36.png |
+| Bear_1_HARAMI_Bear_4 | C2 body inside C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_36.png |
+| Bear_1_EQUAL_HIGH_Bull_1 | Higher shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 = H_C-1 <br> } | Tweezer Bottom | plot_36.png |
+| Bear_1_EQUAL_HIGH_Bull_2 | Higher shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 = H_C-1 <br> } | - | plot_36.png |
+| Bear_1_EQUAL_HIGH_Bull_3 | Higher shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 = H_C-1 <br> } | - | plot_36.png |
+| Bear_1_EQUAL_HIGH_Bull_4 | Higher shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 = H_C-1 <br> } | - | plot_36.png |
+| Bear_1_EQUAL_HIGH_Bear_1 | Higher shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 = H_C-1 <br> } | - | plot_36.png |
+| Bear_1_EQUAL_HIGH_Bear_2 | Higher shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 = H_C-1 <br> } | - | plot_36.png |
+| Bear_1_EQUAL_HIGH_Bear_3 | Higher shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 = H_C-1 <br> } | - | plot_36.png |
+| Bear_1_EQUAL_HIGH_Bear_4 | Higher shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 = H_C-1 <br> } | - | plot_36.png |
+| Bear_1_EQUAL_LOW_Bull_1 | Lower shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 = L_C-1 <br> } | Tweezer Bottom | plot_37.png |
+| Bear_1_EQUAL_LOW_Bull_2 | Lower shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 = L_C-1 <br> } | Tweezer Bottom | plot_37.png |
+| Bear_1_EQUAL_LOW_Bull_3 | Lower shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 = L_C-1 <br> } | Tweezer Bottom | plot_37.png |
+| Bear_1_EQUAL_LOW_Bull_4 | Lower shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 = L_C-1 <br> } | Tweezer Bottom | plot_37.png |
+| Bear_1_EQUAL_LOW_Bear_1 | Lower shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 = L_C-1 <br> } | - | plot_37.png |
+| Bear_1_EQUAL_LOW_Bear_2 | Lower shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 = L_C-1 <br> } | - | plot_37.png |
+| Bear_1_EQUAL_LOW_Bear_3 | Lower shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 = L_C-1 <br> } | - | plot_37.png |
+| Bear_1_EQUAL_LOW_Bear_4 | Lower shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 = L_C-1 <br> } | - | plot_37.png |
+| Bear_1_MEETING_LINES_Bull_1 | Close of C2 matches Close of C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> C_C0 = C_C-1 <br> } | Bullish Meeting Lines, In Neck | plot_37.png |
+| Bear_1_MEETING_LINES_Bull_2 | Close of C2 matches Close of C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> C_C0 = C_C-1 <br> } | Bullish Meeting Lines, In Neck | plot_37.png |
+| Bear_1_MEETING_LINES_Bull_3 | Close of C2 matches Close of C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> C_C0 = C_C-1 <br> } | Bullish Meeting Lines, In Neck | plot_38.png |
+| Bear_1_MEETING_LINES_Bull_4 | Close of C2 matches Close of C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> C_C0 = C_C-1 <br> } | Bullish Meeting Lines, In Neck | plot_38.png |
+| Bear_1_MEETING_LINES_Bear_1 | Close of C2 matches Close of C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> C_C0 = C_C-1 <br> } | - | plot_38.png |
+| Bear_1_MEETING_LINES_Bear_2 | Close of C2 matches Close of C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> C_C0 = C_C-1 <br> } | - | plot_38.png |
+| Bear_1_MEETING_LINES_Bear_3 | Close of C2 matches Close of C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> C_C0 = C_C-1 <br> } | - | plot_38.png |
+| Bear_1_MEETING_LINES_Bear_4 | Close of C2 matches Close of C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> C_C0 = C_C-1 <br> } | - | plot_38.png |
+| Bear_1_OVERLAP_UPPER_Bull_1 | C2 centered on C1 High/Open | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_38.png |
+| Bear_1_OVERLAP_UPPER_Bull_2 | C2 centered on C1 High/Open | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_38.png |
+| Bear_1_OVERLAP_UPPER_Bull_3 | C2 centered on C1 High/Open | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_38.png |
+| Bear_1_OVERLAP_UPPER_Bull_4 | C2 centered on C1 High/Open | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_38.png |
+| Bear_1_OVERLAP_UPPER_Bear_1 | C2 centered on C1 High/Open | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_39.png |
+| Bear_1_OVERLAP_UPPER_Bear_2 | C2 centered on C1 High/Open | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_39.png |
+| Bear_1_OVERLAP_UPPER_Bear_3 | C2 centered on C1 High/Open | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_39.png |
+| Bear_1_OVERLAP_UPPER_Bear_4 | C2 centered on C1 High/Open | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_39.png |
+| Bear_1_OVERLAP_LOWER_Bull_1 | C2 centered on C1 Low/Close | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_39.png |
+| Bear_1_OVERLAP_LOWER_Bull_2 | C2 centered on C1 Low/Close | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_39.png |
+| Bear_1_OVERLAP_LOWER_Bull_3 | C2 centered on C1 Low/Close | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | Tweezer Bottom | plot_39.png |
+| Bear_1_OVERLAP_LOWER_Bull_4 | C2 centered on C1 Low/Close | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | Tweezer Bottom | plot_39.png |
+| Bear_1_OVERLAP_LOWER_Bear_1 | C2 centered on C1 Low/Close | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_39.png |
+| Bear_1_OVERLAP_LOWER_Bear_2 | C2 centered on C1 Low/Close | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_39.png |
+| Bear_1_OVERLAP_LOWER_Bear_3 | C2 centered on C1 Low/Close | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_40.png |
+| Bear_1_OVERLAP_LOWER_Bear_4 | C2 centered on C1 Low/Close | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_40.png |
+| Bear_1_PIERCING_CLOUD_Bull_1 | Large gap and heavy overlap | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bullish Engulfing, Tweezer Bottom | plot_40.png |
+| Bear_1_PIERCING_CLOUD_Bull_2 | Large gap and heavy overlap | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bullish Engulfing, Tweezer Bottom | plot_40.png |
+| Bear_1_PIERCING_CLOUD_Bull_3 | Large gap and heavy overlap | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bullish Engulfing | plot_40.png |
+| Bear_1_PIERCING_CLOUD_Bull_4 | Large gap and heavy overlap | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bullish Engulfing | plot_40.png |
+| Bear_1_PIERCING_CLOUD_Bear_1 | Large gap and heavy overlap | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_40.png |
+| Bear_1_PIERCING_CLOUD_Bear_2 | Large gap and heavy overlap | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_40.png |
+| Bear_1_PIERCING_CLOUD_Bear_3 | Large gap and heavy overlap | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_40.png |
+| Bear_1_PIERCING_CLOUD_Bear_4 | Large gap and heavy overlap | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_40.png |
+| Bear_2_GAP_UP_Bull_1 | C2 completely above C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_41.png |
+| Bear_2_GAP_UP_Bull_2 | C2 completely above C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_41.png |
+| Bear_2_GAP_UP_Bull_3 | C2 completely above C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_41.png |
+| Bear_2_GAP_UP_Bull_4 | C2 completely above C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_41.png |
+| Bear_2_GAP_UP_Bear_1 | C2 completely above C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_41.png |
+| Bear_2_GAP_UP_Bear_2 | C2 completely above C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_41.png |
+| Bear_2_GAP_UP_Bear_3 | C2 completely above C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_41.png |
+| Bear_2_GAP_UP_Bear_4 | C2 completely above C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_41.png |
+| Bear_2_GAP_DOWN_Bull_1 | C2 completely below C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_41.png |
+| Bear_2_GAP_DOWN_Bull_2 | C2 completely below C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_41.png |
+| Bear_2_GAP_DOWN_Bull_3 | C2 completely below C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_42.png |
+| Bear_2_GAP_DOWN_Bull_4 | C2 completely below C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_42.png |
+| Bear_2_GAP_DOWN_Bear_1 | C2 completely below C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_42.png |
+| Bear_2_GAP_DOWN_Bear_2 | C2 completely below C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_42.png |
+| Bear_2_GAP_DOWN_Bear_3 | C2 completely below C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_42.png |
+| Bear_2_GAP_DOWN_Bear_4 | C2 completely below C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_42.png |
+| Bear_2_ENGULFING_Bull_1 | C2 body engulfs C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bullish Engulfing | plot_42.png |
+| Bear_2_ENGULFING_Bull_2 | C2 body engulfs C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bullish Engulfing | plot_42.png |
+| Bear_2_ENGULFING_Bull_3 | C2 body engulfs C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bullish Engulfing | plot_42.png |
+| Bear_2_ENGULFING_Bull_4 | C2 body engulfs C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bullish Engulfing | plot_42.png |
+| Bear_2_ENGULFING_Bear_1 | C2 body engulfs C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_43.png |
+| Bear_2_ENGULFING_Bear_2 | C2 body engulfs C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_43.png |
+| Bear_2_ENGULFING_Bear_3 | C2 body engulfs C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_43.png |
+| Bear_2_ENGULFING_Bear_4 | C2 body engulfs C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_43.png |
+| Bear_2_HARAMI_Bull_1 | C2 body inside C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bullish Harami, Tweezer Bottom | plot_43.png |
+| Bear_2_HARAMI_Bull_2 | C2 body inside C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bullish Harami, Tweezer Bottom | plot_43.png |
+| Bear_2_HARAMI_Bull_3 | C2 body inside C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bullish Harami | plot_43.png |
+| Bear_2_HARAMI_Bull_4 | C2 body inside C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bullish Harami | plot_43.png |
+| Bear_2_HARAMI_Bear_1 | C2 body inside C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_43.png |
+| Bear_2_HARAMI_Bear_2 | C2 body inside C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_43.png |
+| Bear_2_HARAMI_Bear_3 | C2 body inside C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_44.png |
+| Bear_2_HARAMI_Bear_4 | C2 body inside C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_44.png |
+| Bear_2_EQUAL_HIGH_Bull_1 | Higher shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 = H_C-1 <br> } | - | plot_44.png |
+| Bear_2_EQUAL_HIGH_Bull_2 | Higher shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 = H_C-1 <br> } | Tweezer Bottom | plot_44.png |
+| Bear_2_EQUAL_HIGH_Bull_3 | Higher shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 = H_C-1 <br> } | Tweezer Bottom | plot_44.png |
+| Bear_2_EQUAL_HIGH_Bull_4 | Higher shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 = H_C-1 <br> } | - | plot_44.png |
+| Bear_2_EQUAL_HIGH_Bear_1 | Higher shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 = H_C-1 <br> } | - | plot_44.png |
+| Bear_2_EQUAL_HIGH_Bear_2 | Higher shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 = H_C-1 <br> } | - | plot_44.png |
+| Bear_2_EQUAL_HIGH_Bear_3 | Higher shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 = H_C-1 <br> } | - | plot_44.png |
+| Bear_2_EQUAL_HIGH_Bear_4 | Higher shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 = H_C-1 <br> } | - | plot_44.png |
+| Bear_2_EQUAL_LOW_Bull_1 | Lower shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 = L_C-1 <br> } | Tweezer Bottom | plot_45.png |
+| Bear_2_EQUAL_LOW_Bull_2 | Lower shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 = L_C-1 <br> } | Tweezer Bottom | plot_45.png |
+| Bear_2_EQUAL_LOW_Bull_3 | Lower shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 = L_C-1 <br> } | Tweezer Bottom | plot_45.png |
+| Bear_2_EQUAL_LOW_Bull_4 | Lower shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 = L_C-1 <br> } | Tweezer Bottom | plot_45.png |
+| Bear_2_EQUAL_LOW_Bear_1 | Lower shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 = L_C-1 <br> } | - | plot_45.png |
+| Bear_2_EQUAL_LOW_Bear_2 | Lower shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 = L_C-1 <br> } | - | plot_45.png |
+| Bear_2_EQUAL_LOW_Bear_3 | Lower shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 = L_C-1 <br> } | - | plot_45.png |
+| Bear_2_EQUAL_LOW_Bear_4 | Lower shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 = L_C-1 <br> } | - | plot_45.png |
+| Bear_2_MEETING_LINES_Bull_1 | Close of C2 matches Close of C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> C_C0 = C_C-1 <br> } | Bullish Meeting Lines, In Neck, On Neck | plot_45.png |
+| Bear_2_MEETING_LINES_Bull_2 | Close of C2 matches Close of C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> C_C0 = C_C-1 <br> } | Bullish Meeting Lines, In Neck, On Neck | plot_45.png |
+| Bear_2_MEETING_LINES_Bull_3 | Close of C2 matches Close of C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> C_C0 = C_C-1 <br> } | Bullish Meeting Lines, In Neck, On Neck | plot_46.png |
+| Bear_2_MEETING_LINES_Bull_4 | Close of C2 matches Close of C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> C_C0 = C_C-1 <br> } | Bullish Meeting Lines, In Neck, On Neck | plot_46.png |
+| Bear_2_MEETING_LINES_Bear_1 | Close of C2 matches Close of C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> C_C0 = C_C-1 <br> } | - | plot_46.png |
+| Bear_2_MEETING_LINES_Bear_2 | Close of C2 matches Close of C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> C_C0 = C_C-1 <br> } | - | plot_46.png |
+| Bear_2_MEETING_LINES_Bear_3 | Close of C2 matches Close of C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> C_C0 = C_C-1 <br> } | - | plot_46.png |
+| Bear_2_MEETING_LINES_Bear_4 | Close of C2 matches Close of C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> C_C0 = C_C-1 <br> } | - | plot_46.png |
+| Bear_2_OVERLAP_UPPER_Bull_1 | C2 centered on C1 High/Open | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | Tweezer Bottom | plot_46.png |
+| Bear_2_OVERLAP_UPPER_Bull_2 | C2 centered on C1 High/Open | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | Tweezer Bottom | plot_46.png |
+| Bear_2_OVERLAP_UPPER_Bull_3 | C2 centered on C1 High/Open | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_46.png |
+| Bear_2_OVERLAP_UPPER_Bull_4 | C2 centered on C1 High/Open | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_46.png |
+| Bear_2_OVERLAP_UPPER_Bear_1 | C2 centered on C1 High/Open | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_47.png |
+| Bear_2_OVERLAP_UPPER_Bear_2 | C2 centered on C1 High/Open | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_47.png |
+| Bear_2_OVERLAP_UPPER_Bear_3 | C2 centered on C1 High/Open | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_47.png |
+| Bear_2_OVERLAP_UPPER_Bear_4 | C2 centered on C1 High/Open | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_47.png |
+| Bear_2_OVERLAP_LOWER_Bull_1 | C2 centered on C1 Low/Close | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_47.png |
+| Bear_2_OVERLAP_LOWER_Bull_2 | C2 centered on C1 Low/Close | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_47.png |
+| Bear_2_OVERLAP_LOWER_Bull_3 | C2 centered on C1 Low/Close | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_47.png |
+| Bear_2_OVERLAP_LOWER_Bull_4 | C2 centered on C1 Low/Close | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_47.png |
+| Bear_2_OVERLAP_LOWER_Bear_1 | C2 centered on C1 Low/Close | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_47.png |
+| Bear_2_OVERLAP_LOWER_Bear_2 | C2 centered on C1 Low/Close | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_47.png |
+| Bear_2_OVERLAP_LOWER_Bear_3 | C2 centered on C1 Low/Close | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_48.png |
+| Bear_2_OVERLAP_LOWER_Bear_4 | C2 centered on C1 Low/Close | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_48.png |
+| Bear_2_PIERCING_CLOUD_Bull_1 | Large gap and heavy overlap | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bullish Engulfing | plot_48.png |
+| Bear_2_PIERCING_CLOUD_Bull_2 | Large gap and heavy overlap | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bullish Engulfing | plot_48.png |
+| Bear_2_PIERCING_CLOUD_Bull_3 | Large gap and heavy overlap | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bullish Engulfing, Tweezer Bottom | plot_48.png |
+| Bear_2_PIERCING_CLOUD_Bull_4 | Large gap and heavy overlap | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bullish Engulfing, Tweezer Bottom | plot_48.png |
+| Bear_2_PIERCING_CLOUD_Bear_1 | Large gap and heavy overlap | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_48.png |
+| Bear_2_PIERCING_CLOUD_Bear_2 | Large gap and heavy overlap | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_48.png |
+| Bear_2_PIERCING_CLOUD_Bear_3 | Large gap and heavy overlap | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_48.png |
+| Bear_2_PIERCING_CLOUD_Bear_4 | Large gap and heavy overlap | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 < H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_48.png |
+| Bear_3_GAP_UP_Bull_1 | C2 completely above C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_49.png |
+| Bear_3_GAP_UP_Bull_2 | C2 completely above C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_49.png |
+| Bear_3_GAP_UP_Bull_3 | C2 completely above C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_49.png |
+| Bear_3_GAP_UP_Bull_4 | C2 completely above C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_49.png |
+| Bear_3_GAP_UP_Bear_1 | C2 completely above C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_49.png |
+| Bear_3_GAP_UP_Bear_2 | C2 completely above C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_49.png |
+| Bear_3_GAP_UP_Bear_3 | C2 completely above C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_49.png |
+| Bear_3_GAP_UP_Bear_4 | C2 completely above C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_49.png |
+| Bear_3_GAP_DOWN_Bull_1 | C2 completely below C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_49.png |
+| Bear_3_GAP_DOWN_Bull_2 | C2 completely below C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_49.png |
+| Bear_3_GAP_DOWN_Bull_3 | C2 completely below C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_50.png |
+| Bear_3_GAP_DOWN_Bull_4 | C2 completely below C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_50.png |
+| Bear_3_GAP_DOWN_Bear_1 | C2 completely below C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_50.png |
+| Bear_3_GAP_DOWN_Bear_2 | C2 completely below C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_50.png |
+| Bear_3_GAP_DOWN_Bear_3 | C2 completely below C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_50.png |
+| Bear_3_GAP_DOWN_Bear_4 | C2 completely below C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_50.png |
+| Bear_3_ENGULFING_Bull_1 | C2 body engulfs C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bullish Engulfing | plot_50.png |
+| Bear_3_ENGULFING_Bull_2 | C2 body engulfs C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bullish Engulfing | plot_50.png |
+| Bear_3_ENGULFING_Bull_3 | C2 body engulfs C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bullish Engulfing | plot_50.png |
+| Bear_3_ENGULFING_Bull_4 | C2 body engulfs C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bullish Engulfing | plot_50.png |
+| Bear_3_ENGULFING_Bear_1 | C2 body engulfs C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_51.png |
+| Bear_3_ENGULFING_Bear_2 | C2 body engulfs C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_51.png |
+| Bear_3_ENGULFING_Bear_3 | C2 body engulfs C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_51.png |
+| Bear_3_ENGULFING_Bear_4 | C2 body engulfs C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_51.png |
+| Bear_3_HARAMI_Bull_1 | C2 body inside C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bullish Harami | plot_51.png |
+| Bear_3_HARAMI_Bull_2 | C2 body inside C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bullish Harami | plot_51.png |
+| Bear_3_HARAMI_Bull_3 | C2 body inside C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bullish Harami | plot_51.png |
+| Bear_3_HARAMI_Bull_4 | C2 body inside C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bullish Harami | plot_51.png |
+| Bear_3_HARAMI_Bear_1 | C2 body inside C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_51.png |
+| Bear_3_HARAMI_Bear_2 | C2 body inside C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_51.png |
+| Bear_3_HARAMI_Bear_3 | C2 body inside C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_52.png |
+| Bear_3_HARAMI_Bear_4 | C2 body inside C1 body | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_52.png |
+| Bear_3_EQUAL_HIGH_Bull_1 | Higher shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 = H_C-1 <br> } | - | plot_52.png |
+| Bear_3_EQUAL_HIGH_Bull_2 | Higher shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 = H_C-1 <br> } | Tweezer Bottom | plot_52.png |
+| Bear_3_EQUAL_HIGH_Bull_3 | Higher shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 = H_C-1 <br> } | Tweezer Bottom | plot_52.png |
+| Bear_3_EQUAL_HIGH_Bull_4 | Higher shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 = H_C-1 <br> } | - | plot_52.png |
+| Bear_3_EQUAL_HIGH_Bear_1 | Higher shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 = H_C-1 <br> } | - | plot_52.png |
+| Bear_3_EQUAL_HIGH_Bear_2 | Higher shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 = H_C-1 <br> } | - | plot_52.png |
+| Bear_3_EQUAL_HIGH_Bear_3 | Higher shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 = H_C-1 <br> } | - | plot_52.png |
+| Bear_3_EQUAL_HIGH_Bear_4 | Higher shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 = H_C-1 <br> } | - | plot_52.png |
+| Bear_3_EQUAL_LOW_Bull_1 | Lower shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 = L_C-1 <br> } | Tweezer Bottom | plot_53.png |
+| Bear_3_EQUAL_LOW_Bull_2 | Lower shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 = L_C-1 <br> } | Tweezer Bottom | plot_53.png |
+| Bear_3_EQUAL_LOW_Bull_3 | Lower shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 = L_C-1 <br> } | Tweezer Bottom | plot_53.png |
+| Bear_3_EQUAL_LOW_Bull_4 | Lower shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 = L_C-1 <br> } | Tweezer Bottom | plot_53.png |
+| Bear_3_EQUAL_LOW_Bear_1 | Lower shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 = L_C-1 <br> } | - | plot_53.png |
+| Bear_3_EQUAL_LOW_Bear_2 | Lower shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 = L_C-1 <br> } | - | plot_53.png |
+| Bear_3_EQUAL_LOW_Bear_3 | Lower shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 = L_C-1 <br> } | - | plot_53.png |
+| Bear_3_EQUAL_LOW_Bear_4 | Lower shadow matches exactly | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 = L_C-1 <br> } | - | plot_53.png |
+| Bear_3_MEETING_LINES_Bull_1 | Close of C2 matches Close of C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> C_C0 = C_C-1 <br> } | Bullish Meeting Lines, In Neck | plot_53.png |
+| Bear_3_MEETING_LINES_Bull_2 | Close of C2 matches Close of C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> C_C0 = C_C-1 <br> } | Bullish Meeting Lines, In Neck | plot_53.png |
+| Bear_3_MEETING_LINES_Bull_3 | Close of C2 matches Close of C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> C_C0 = C_C-1 <br> } | Bullish Meeting Lines, In Neck | plot_54.png |
+| Bear_3_MEETING_LINES_Bull_4 | Close of C2 matches Close of C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> C_C0 = C_C-1 <br> } | Bullish Meeting Lines, In Neck | plot_54.png |
+| Bear_3_MEETING_LINES_Bear_1 | Close of C2 matches Close of C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> C_C0 = C_C-1 <br> } | - | plot_54.png |
+| Bear_3_MEETING_LINES_Bear_2 | Close of C2 matches Close of C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> C_C0 = C_C-1 <br> } | - | plot_54.png |
+| Bear_3_MEETING_LINES_Bear_3 | Close of C2 matches Close of C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> C_C0 = C_C-1 <br> } | - | plot_54.png |
+| Bear_3_MEETING_LINES_Bear_4 | Close of C2 matches Close of C1 | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> C_C0 = C_C-1 <br> } | - | plot_54.png |
+| Bear_3_OVERLAP_UPPER_Bull_1 | C2 centered on C1 High/Open | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_54.png |
+| Bear_3_OVERLAP_UPPER_Bull_2 | C2 centered on C1 High/Open | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_54.png |
+| Bear_3_OVERLAP_UPPER_Bull_3 | C2 centered on C1 High/Open | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_54.png |
+| Bear_3_OVERLAP_UPPER_Bull_4 | C2 centered on C1 High/Open | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_54.png |
+| Bear_3_OVERLAP_UPPER_Bear_1 | C2 centered on C1 High/Open | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_55.png |
+| Bear_3_OVERLAP_UPPER_Bear_2 | C2 centered on C1 High/Open | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_55.png |
+| Bear_3_OVERLAP_UPPER_Bear_3 | C2 centered on C1 High/Open | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_55.png |
+| Bear_3_OVERLAP_UPPER_Bear_4 | C2 centered on C1 High/Open | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_55.png |
+| Bear_3_OVERLAP_LOWER_Bull_1 | C2 centered on C1 Low/Close | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_55.png |
+| Bear_3_OVERLAP_LOWER_Bull_2 | C2 centered on C1 Low/Close | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_55.png |
+| Bear_3_OVERLAP_LOWER_Bull_3 | C2 centered on C1 Low/Close | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | Tweezer Bottom | plot_55.png |
+| Bear_3_OVERLAP_LOWER_Bull_4 | C2 centered on C1 Low/Close | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | Tweezer Bottom | plot_55.png |
+| Bear_3_OVERLAP_LOWER_Bear_1 | C2 centered on C1 Low/Close | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_55.png |
+| Bear_3_OVERLAP_LOWER_Bear_2 | C2 centered on C1 Low/Close | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_55.png |
+| Bear_3_OVERLAP_LOWER_Bear_3 | C2 centered on C1 Low/Close | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_56.png |
+| Bear_3_OVERLAP_LOWER_Bear_4 | C2 centered on C1 Low/Close | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_56.png |
+| Bear_3_PIERCING_CLOUD_Bull_1 | Large gap and heavy overlap | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bullish Engulfing, Tweezer Bottom | plot_56.png |
+| Bear_3_PIERCING_CLOUD_Bull_2 | Large gap and heavy overlap | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bullish Engulfing, Tweezer Bottom | plot_56.png |
+| Bear_3_PIERCING_CLOUD_Bull_3 | Large gap and heavy overlap | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bullish Engulfing | plot_56.png |
+| Bear_3_PIERCING_CLOUD_Bull_4 | Large gap and heavy overlap | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bullish Engulfing | plot_56.png |
+| Bear_3_PIERCING_CLOUD_Bear_1 | Large gap and heavy overlap | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_56.png |
+| Bear_3_PIERCING_CLOUD_Bear_2 | Large gap and heavy overlap | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_56.png |
+| Bear_3_PIERCING_CLOUD_Bear_3 | Large gap and heavy overlap | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_56.png |
+| Bear_3_PIERCING_CLOUD_Bear_4 | Large gap and heavy overlap | { <br> L_C-1 < C_C-1 & O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_56.png |
+| Bear_4_GAP_UP_Bull_1 | C2 completely above C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_57.png |
+| Bear_4_GAP_UP_Bull_2 | C2 completely above C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_57.png |
+| Bear_4_GAP_UP_Bull_3 | C2 completely above C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 > H_C-1 <br> } | - | plot_57.png |
+| Bear_4_GAP_UP_Bull_4 | C2 completely above C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 > H_C-1 <br> } | Bullish Kicking | plot_57.png |
+| Bear_4_GAP_UP_Bear_1 | C2 completely above C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_57.png |
+| Bear_4_GAP_UP_Bear_2 | C2 completely above C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_57.png |
+| Bear_4_GAP_UP_Bear_3 | C2 completely above C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_57.png |
+| Bear_4_GAP_UP_Bear_4 | C2 completely above C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 > H_C-1 <br> } | - | plot_57.png |
+| Bear_4_GAP_DOWN_Bull_1 | C2 completely below C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_57.png |
+| Bear_4_GAP_DOWN_Bull_2 | C2 completely below C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_57.png |
+| Bear_4_GAP_DOWN_Bull_3 | C2 completely below C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_58.png |
+| Bear_4_GAP_DOWN_Bull_4 | C2 completely below C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 < L_C-1 <br> } | - | plot_58.png |
+| Bear_4_GAP_DOWN_Bear_1 | C2 completely below C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_58.png |
+| Bear_4_GAP_DOWN_Bear_2 | C2 completely below C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_58.png |
+| Bear_4_GAP_DOWN_Bear_3 | C2 completely below C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_58.png |
+| Bear_4_GAP_DOWN_Bear_4 | C2 completely below C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 < L_C-1 <br> } | - | plot_58.png |
+| Bear_4_ENGULFING_Bull_1 | C2 body engulfs C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bullish Engulfing | plot_58.png |
+| Bear_4_ENGULFING_Bull_2 | C2 body engulfs C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bullish Engulfing | plot_58.png |
+| Bear_4_ENGULFING_Bull_3 | C2 body engulfs C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bullish Engulfing | plot_58.png |
+| Bear_4_ENGULFING_Bull_4 | C2 body engulfs C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | Bullish Engulfing | plot_58.png |
+| Bear_4_ENGULFING_Bear_1 | C2 body engulfs C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_59.png |
+| Bear_4_ENGULFING_Bear_2 | C2 body engulfs C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_59.png |
+| Bear_4_ENGULFING_Bear_3 | C2 body engulfs C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_59.png |
+| Bear_4_ENGULFING_Bear_4 | C2 body engulfs C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1)) <br> } | - | plot_59.png |
+| Bear_4_HARAMI_Bull_1 | C2 body inside C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bullish Harami, Tweezer Bottom | plot_59.png |
+| Bear_4_HARAMI_Bull_2 | C2 body inside C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bullish Harami, Tweezer Bottom | plot_59.png |
+| Bear_4_HARAMI_Bull_3 | C2 body inside C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bullish Harami | plot_59.png |
+| Bear_4_HARAMI_Bull_4 | C2 body inside C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | Bullish Harami | plot_59.png |
+| Bear_4_HARAMI_Bear_1 | C2 body inside C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_59.png |
+| Bear_4_HARAMI_Bear_2 | C2 body inside C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_59.png |
+| Bear_4_HARAMI_Bear_3 | C2 body inside C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_60.png |
+| Bear_4_HARAMI_Bear_4 | C2 body inside C1 body | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1)) <br> } | - | plot_60.png |
+| Bear_4_EQUAL_HIGH_Bull_1 | Higher shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 = H_C-1 <br> } | - | plot_60.png |
+| Bear_4_EQUAL_HIGH_Bull_2 | Higher shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> H_C0 = H_C-1 <br> } | - | plot_60.png |
+| Bear_4_EQUAL_HIGH_Bull_3 | Higher shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 = H_C-1 <br> } | - | plot_60.png |
+| Bear_4_EQUAL_HIGH_Bull_4 | Higher shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> H_C0 = H_C-1 <br> } | Tweezer Bottom | plot_60.png |
+| Bear_4_EQUAL_HIGH_Bear_1 | Higher shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 = H_C-1 <br> } | - | plot_60.png |
+| Bear_4_EQUAL_HIGH_Bear_2 | Higher shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> H_C0 = H_C-1 <br> } | - | plot_60.png |
+| Bear_4_EQUAL_HIGH_Bear_3 | Higher shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 = H_C-1 <br> } | - | plot_60.png |
+| Bear_4_EQUAL_HIGH_Bear_4 | Higher shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> H_C0 = H_C-1 <br> } | - | plot_60.png |
+| Bear_4_EQUAL_LOW_Bull_1 | Lower shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 = L_C-1 <br> } | Tweezer Bottom | plot_61.png |
+| Bear_4_EQUAL_LOW_Bull_2 | Lower shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> L_C0 = L_C-1 <br> } | Tweezer Bottom | plot_61.png |
+| Bear_4_EQUAL_LOW_Bull_3 | Lower shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 = L_C-1 <br> } | Tweezer Bottom | plot_61.png |
+| Bear_4_EQUAL_LOW_Bull_4 | Lower shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> L_C0 = L_C-1 <br> } | Tweezer Bottom | plot_61.png |
+| Bear_4_EQUAL_LOW_Bear_1 | Lower shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 = L_C-1 <br> } | - | plot_61.png |
+| Bear_4_EQUAL_LOW_Bear_2 | Lower shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> L_C0 = L_C-1 <br> } | - | plot_61.png |
+| Bear_4_EQUAL_LOW_Bear_3 | Lower shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 = L_C-1 <br> } | - | plot_61.png |
+| Bear_4_EQUAL_LOW_Bear_4 | Lower shadow matches exactly | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> L_C0 = L_C-1 <br> } | - | plot_61.png |
+| Bear_4_MEETING_LINES_Bull_1 | Close of C2 matches Close of C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> C_C0 = C_C-1 <br> } | Bullish Meeting Lines, In Neck, On Neck | plot_61.png |
+| Bear_4_MEETING_LINES_Bull_2 | Close of C2 matches Close of C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> C_C0 = C_C-1 <br> } | Bullish Meeting Lines, In Neck, On Neck | plot_61.png |
+| Bear_4_MEETING_LINES_Bull_3 | Close of C2 matches Close of C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> C_C0 = C_C-1 <br> } | Bullish Meeting Lines, In Neck, On Neck | plot_62.png |
+| Bear_4_MEETING_LINES_Bull_4 | Close of C2 matches Close of C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> C_C0 = C_C-1 <br> } | Bullish Meeting Lines, In Neck, On Neck | plot_62.png |
+| Bear_4_MEETING_LINES_Bear_1 | Close of C2 matches Close of C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> C_C0 = C_C-1 <br> } | - | plot_62.png |
+| Bear_4_MEETING_LINES_Bear_2 | Close of C2 matches Close of C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> C_C0 = C_C-1 <br> } | - | plot_62.png |
+| Bear_4_MEETING_LINES_Bear_3 | Close of C2 matches Close of C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> C_C0 = C_C-1 <br> } | - | plot_62.png |
+| Bear_4_MEETING_LINES_Bear_4 | Close of C2 matches Close of C1 | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> C_C0 = C_C-1 <br> } | - | plot_62.png |
+| Bear_4_OVERLAP_UPPER_Bull_1 | C2 centered on C1 High/Open | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | Tweezer Bottom | plot_62.png |
+| Bear_4_OVERLAP_UPPER_Bull_2 | C2 centered on C1 High/Open | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | Tweezer Bottom | plot_62.png |
+| Bear_4_OVERLAP_UPPER_Bull_3 | C2 centered on C1 High/Open | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_62.png |
+| Bear_4_OVERLAP_UPPER_Bull_4 | C2 centered on C1 High/Open | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_62.png |
+| Bear_4_OVERLAP_UPPER_Bear_1 | C2 centered on C1 High/Open | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_63.png |
+| Bear_4_OVERLAP_UPPER_Bear_2 | C2 centered on C1 High/Open | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_63.png |
+| Bear_4_OVERLAP_UPPER_Bear_3 | C2 centered on C1 High/Open | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_63.png |
+| Bear_4_OVERLAP_UPPER_Bear_4 | C2 centered on C1 High/Open | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1) <br> } | - | plot_63.png |
+| Bear_4_OVERLAP_LOWER_Bull_1 | C2 centered on C1 Low/Close | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_63.png |
+| Bear_4_OVERLAP_LOWER_Bull_2 | C2 centered on C1 Low/Close | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_63.png |
+| Bear_4_OVERLAP_LOWER_Bull_3 | C2 centered on C1 Low/Close | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_63.png |
+| Bear_4_OVERLAP_LOWER_Bull_4 | C2 centered on C1 Low/Close | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_63.png |
+| Bear_4_OVERLAP_LOWER_Bear_1 | C2 centered on C1 Low/Close | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_63.png |
+| Bear_4_OVERLAP_LOWER_Bear_2 | C2 centered on C1 Low/Close | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_63.png |
+| Bear_4_OVERLAP_LOWER_Bear_3 | C2 centered on C1 Low/Close | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_64.png |
+| Bear_4_OVERLAP_LOWER_Bear_4 | C2 centered on C1 Low/Close | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> ((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1) <br> } | - | plot_64.png |
+| Bear_4_PIERCING_CLOUD_Bull_1 | Large gap and heavy overlap | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bullish Engulfing | plot_64.png |
+| Bear_4_PIERCING_CLOUD_Bull_2 | Large gap and heavy overlap | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 > L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bullish Engulfing | plot_64.png |
+| Bear_4_PIERCING_CLOUD_Bull_3 | Large gap and heavy overlap | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> H_C0 > C_C0 & O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bullish Engulfing, Tweezer Bottom | plot_64.png |
+| Bear_4_PIERCING_CLOUD_Bull_4 | Large gap and heavy overlap | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = H_C0) > O_C0 & L_C0 <br> C_C0 > O_C0 & L_C0 <br> O_C0 = L_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | Bullish Engulfing, Tweezer Bottom | plot_64.png |
+| Bear_4_PIERCING_CLOUD_Bear_1 | Large gap and heavy overlap | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_64.png |
+| Bear_4_PIERCING_CLOUD_Bear_2 | Large gap and heavy overlap | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 < H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_64.png |
+| Bear_4_PIERCING_CLOUD_Bear_3 | Large gap and heavy overlap | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> L_C0 < C_C0 & O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_64.png |
+| Bear_4_PIERCING_CLOUD_Bear_4 | Large gap and heavy overlap | { <br> (C_C-1 = L_C-1) < O_C-1 & H_C-1 <br> C_C-1 < O_C-1 & H_C-1 <br> O_C-1 = H_C-1 <br> (C_C0 = L_C0) < O_C0 & H_C0 <br> C_C0 < O_C0 & H_C0 <br> O_C0 = H_C0 <br> (O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2)) <br> } | - | plot_64.png |
\ No newline at end of file
diff --git a/generate_graphs.py b/generate_graphs.py
new file mode 100644
index 0000000000000000000000000000000000000000..c773d9f6eab4d5e5c1f70f66a940a15a3876720f
--- /dev/null
+++ b/generate_graphs.py
@@ -0,0 +1,254 @@
+import os
+import matplotlib.pyplot as plt
+import matplotlib.patches as patches
+import math
+
+os.makedirs('images', exist_ok=True)
+
+candle_types = ['Bull_1', 'Bull_2', 'Bull_3', 'Bull_4', 'Bear_1', 'Bear_2', 'Bear_3', 'Bear_4']
+
+alignments = ['GAP_UP', 'GAP_DOWN', 'ENGULFING', 'HARAMI', 'EQUAL_HIGH', 'EQUAL_LOW', 'MEETING_LINES', 'OVERLAP_UPPER', 'OVERLAP_LOWER', 'PIERCING_CLOUD']
+
+def get_base_candle(c_type, base_y=50.0, body_size=10.0, wick_size=5.0):
+    half_body = body_size / 2.0
+    top_body = base_y + half_body
+    bot_body = base_y - half_body
+    
+    if c_type == 'Bull_1': # H > C > O > L
+        return (bot_body, top_body + wick_size, bot_body - wick_size, top_body)
+    elif c_type == 'Bull_2': # C=H > O > L
+        return (bot_body, top_body, bot_body - wick_size, top_body)
+    elif c_type == 'Bull_3': # H > C > O=L
+        return (bot_body, top_body + wick_size, bot_body, top_body)
+    elif c_type == 'Bull_4': # C=H > O=L
+        return (bot_body, top_body, bot_body, top_body)
+    elif c_type == 'Bear_1': # H > O > C > L
+        return (top_body, top_body + wick_size, bot_body - wick_size, bot_body)
+    elif c_type == 'Bear_2': # H > O > C=L
+        return (top_body, top_body + wick_size, bot_body, bot_body)
+    elif c_type == 'Bear_3': # H=O > C > L
+        return (top_body, top_body, bot_body - wick_size, bot_body)
+    elif c_type == 'Bear_4': # H=O > C=L
+        return (top_body, top_body, bot_body, bot_body)
+
+def get_c2(type1, align, type2):
+    c1_body_size = 10.0
+    c1_wick_size = 5.0
+    O1, H1, L1, C1 = get_base_candle(type1, 50.0, c1_body_size, c1_wick_size)
+    top1 = max(O1, C1)
+    bot1 = min(O1, C1)
+    mid1 = (O1 + C1) / 2.0
+    
+    c2_body_size = 10.0
+    c2_wick_size = 5.0
+    base_y = 50.0
+    
+    if align == 'GAP_UP':
+        base_y = H1 + c2_body_size/2.0 + c2_wick_size + 2.0
+    elif align == 'GAP_DOWN':
+        base_y = L1 - c2_body_size/2.0 - c2_wick_size - 2.0
+    elif align == 'ENGULFING':
+        c2_body_size = c1_body_size * 1.5
+        c2_wick_size = c1_wick_size * 1.5
+        base_y = mid1
+    elif align == 'HARAMI':
+        c2_body_size = c1_body_size * 0.5
+        c2_wick_size = c1_wick_size * 0.5
+        base_y = mid1
+    elif align == 'EQUAL_HIGH':
+        _, H2_test, _, _ = get_base_candle(type2, 50.0, c2_body_size, c2_wick_size)
+        base_y = 50.0 + (H1 - H2_test)
+    elif align == 'EQUAL_LOW':
+        _, _, L2_test, _ = get_base_candle(type2, 50.0, c2_body_size, c2_wick_size)
+        base_y = 50.0 + (L1 - L2_test)
+    elif align == 'MEETING_LINES':
+        _, _, _, C2_test = get_base_candle(type2, 50.0, c2_body_size, c2_wick_size)
+        base_y = 50.0 + (C1 - C2_test)
+    elif align == 'OVERLAP_UPPER':
+        base_y = top1
+    elif align == 'OVERLAP_LOWER':
+        base_y = bot1
+    elif align == 'PIERCING_CLOUD':
+        c2_body_size = 18.0
+        base_y = mid1 + 4.0
+        
+    return get_base_candle(type2, base_y, c2_body_size, c2_wick_size)
+
+def is_bullish(O, C): return C > O
+def is_bearish(O, C): return C < O
+
+def determine_standard_name(c1_type, O1, H1, L1, C1, c2_type, O2, H2, L2, C2):
+    is_bull1 = is_bullish(O1, C1)
+    is_bear1 = is_bearish(O1, C1)
+    is_bull2 = is_bullish(O2, C2)
+    is_bear2 = is_bearish(O2, C2)
+
+    mid1 = (O1 + C1) / 2.0
+    names = []
+
+    if is_bear1 and is_bull2 and (O2 <= C1 and C2 >= O1) and (O2 < C1 or C2 > O1): 
+        names.append("Bullish Engulfing")
+    elif is_bull1 and is_bear2 and (O2 >= C1 and C2 <= O1) and (O2 > C1 or C2 < O1):
+        names.append("Bearish Engulfing")
+        
+    if is_bear1 and is_bull2 and (O2 >= C1 and C2 <= O1) and (O2 > C1 or C2 < O1):
+        names.append("Bullish Harami")
+    elif is_bull1 and is_bear2 and (O2 <= C1 and C2 >= O1) and (O2 < C1 or C2 > O1):
+        names.append("Bearish Harami")
+        
+    if is_bear1 and is_bull2 and O2 < L1 and C2 > mid1 and C2 < O1:
+        names.append("Piercing Line")
+        
+    if is_bull1 and is_bear2 and O2 > H1 and C2 < mid1 and C2 > O1:
+        names.append("Dark Cloud Cover")
+        
+    if is_bear1 and is_bull2 and O2 > O1 and L2 > H1 and c1_type == 'Bear_4' and c2_type == 'Bull_4':
+        names.append("Bullish Kicking")
+    if is_bull1 and is_bear2 and O2 < O1 and H2 < L1 and c1_type == 'Bull_4' and c2_type == 'Bear_4':
+        names.append("Bearish Kicking")
+        
+    if is_bear1 and is_bull2 and abs(L1 - L2) < 0.05:
+        names.append("Tweezer Bottom")
+    if is_bull1 and is_bear2 and abs(H1 - H2) < 0.05:
+        names.append("Tweezer Top")
+        
+    if is_bear1 and is_bull2 and abs(C1 - C2) < 0.05 and O2 < C1:
+        names.append("Bullish Meeting Lines")
+    if is_bull1 and is_bear2 and abs(C1 - C2) < 0.05 and O2 > C1:
+        names.append("Bearish Meeting Lines")
+        
+    if is_bear1 and is_bull2 and O2 < L1 and C2 < mid1 and C2 > C1:
+        names.append("Thrusting")
+        
+    if is_bear1 and is_bull2 and O2 < L1 and abs(C2 - C1) < 0.05:
+        names.append("In Neck")
+        
+    if is_bear1 and is_bull2 and O2 < L1 and abs(C2 - L1) < 0.05:
+        names.append("On Neck")
+        
+    return ", ".join(names) if names else "-"
+
+def draw_candle(ax, x, O, H, L, C):
+    color = 'green' if C > O else 'red'
+    ax.plot([x, x], [L, H], color=color, linewidth=2)
+    top = max(O, C)
+    bottom = min(O, C)
+    height = top - bottom
+    rect = patches.Rectangle((x - 0.3, bottom), 0.6, height, linewidth=1, edgecolor=color, facecolor=color)
+    ax.add_patch(rect)
+
+def get_pattern_desc(align):
+    descriptions = {
+        'GAP_UP': 'C2 completely above C1',
+        'GAP_DOWN': 'C2 completely below C1',
+        'ENGULFING': 'C2 body engulfs C1 body',
+        'HARAMI': 'C2 body inside C1 body',
+        'EQUAL_HIGH': 'Higher shadow matches exactly',
+        'EQUAL_LOW': 'Lower shadow matches exactly',
+        'MEETING_LINES': 'Close of C2 matches Close of C1',
+        'OVERLAP_UPPER': 'C2 centered on C1 High/Open',
+        'OVERLAP_LOWER': 'C2 centered on C1 Low/Close',
+        'PIERCING_CLOUD': 'Large gap and heavy overlap'
+    }
+    return descriptions.get(align, align)
+
+def get_candle_logic(c_type, suffix):
+    if c_type == 'Bull_1':
+        return f"H{suffix} > C{suffix} & O{suffix} & L{suffix} <br> C{suffix} > O{suffix} & L{suffix} <br> O{suffix} > L{suffix}"
+    elif c_type == 'Bull_2':
+        return f"(C{suffix} = H{suffix}) > O{suffix} & L{suffix} <br> C{suffix} > O{suffix} & L{suffix} <br> O{suffix} > L{suffix}"
+    elif c_type == 'Bull_3':
+        return f"H{suffix} > C{suffix} & O{suffix} & L{suffix} <br> C{suffix} > O{suffix} & L{suffix} <br> O{suffix} = L{suffix}"
+    elif c_type == 'Bull_4':
+        return f"(C{suffix} = H{suffix}) > O{suffix} & L{suffix} <br> C{suffix} > O{suffix} & L{suffix} <br> O{suffix} = L{suffix}"
+    elif c_type == 'Bear_1':
+        return f"L{suffix} < C{suffix} & O{suffix} & H{suffix} <br> C{suffix} < O{suffix} & H{suffix} <br> O{suffix} < H{suffix}"
+    elif c_type == 'Bear_2':
+        return f"(C{suffix} = L{suffix}) < O{suffix} & H{suffix} <br> C{suffix} < O{suffix} & H{suffix} <br> O{suffix} < H{suffix}"
+    elif c_type == 'Bear_3':
+        return f"L{suffix} < C{suffix} & O{suffix} & H{suffix} <br> C{suffix} < O{suffix} & H{suffix} <br> O{suffix} = H{suffix}"
+    elif c_type == 'Bear_4':
+        return f"(C{suffix} = L{suffix}) < O{suffix} & H{suffix} <br> C{suffix} < O{suffix} & H{suffix} <br> O{suffix} = H{suffix}"
+    return ""
+
+def get_alignment_logic(align):
+    if align == 'GAP_UP': return "L_C0 > H_C-1"
+    if align == 'GAP_DOWN': return "H_C0 < L_C-1"
+    if align == 'ENGULFING': return "(max(O_C0, C_C0) > max(O_C-1, C_C-1)) & (min(O_C0, C_C0) < min(O_C-1, C_C-1))"
+    if align == 'HARAMI': return "(max(O_C0, C_C0) < max(O_C-1, C_C-1)) & (min(O_C0, C_C0) > min(O_C-1, C_C-1))"
+    if align == 'EQUAL_HIGH': return "H_C0 = H_C-1"
+    if align == 'EQUAL_LOW': return "L_C0 = L_C-1"
+    if align == 'MEETING_LINES': return "C_C0 = C_C-1"
+    if align == 'OVERLAP_UPPER': return "((O_C0 + C_C0) / 2) = max(O_C-1, C_C-1)"
+    if align == 'OVERLAP_LOWER': return "((O_C0 + C_C0) / 2) = min(O_C-1, C_C-1)"
+    if align == 'PIERCING_CLOUD': return "(O_C0 > H_C-1) & (C_C0 < ((O_C-1 + C_C-1)/2))"
+    return ""
+
+def get_logic_string(c1_type, align, c2_type):
+    lines1 = get_candle_logic(c1_type, "_C-1")
+    lines2 = get_candle_logic(c2_type, "_C0")
+    align_rule = get_alignment_logic(align)
+    return f"{{ <br> {lines1} <br> {lines2} <br> {align_rule} <br> }}"
+
+patterns = []
+
+# Generate all patterns
+for t1 in candle_types:
+    for align in alignments:
+        for t2 in candle_types:
+            patterns.append((t1, align, t2))
+
+total_patterns = len(patterns)
+patterns_per_img = 10
+
+markdown_lines = []
+markdown_lines.append("# Complete 2-Candle Patterns")
+markdown_lines.append("")
+markdown_lines.append("| Code_Name | Pattern_Description | Pattern_Logic | Standard_Name | Image Reference |")
+markdown_lines.append("|---|---|---|---|---|")
+
+for i in range(0, total_patterns, patterns_per_img):
+    batch = patterns[i:i+patterns_per_img]
+    
+    fig, axes = plt.subplots(2, 5, figsize=(20, 8))
+    fig.subplots_adjust(hspace=0.4, wspace=0.3)
+    axes = axes.flatten()
+    
+    for ax in axes:
+        ax.set_visible(False)
+        
+    for j, (t1, align, t2) in enumerate(batch):
+        ax = axes[j]
+        ax.set_visible(True)
+        
+        O1, H1, L1, C1 = get_base_candle(t1, 50.0, 10.0, 5.0)
+        O2, H2, L2, C2 = get_c2(t1, align, t2)
+        
+        draw_candle(ax, 1, O1, H1, L1, C1)
+        draw_candle(ax, 2, O2, H2, L2, C2)
+        
+        min_y = min(L1, L2) - 5
+        max_y = max(H1, H2) + 5
+        ax.set_ylim(min_y, max_y)
+        ax.set_xlim(0, 3)
+        ax.set_xticks([])
+        ax.set_yticks([])
+        
+        code_name = f"{t1}_{align}_{t2}"
+        std_name = determine_standard_name(t1, O1, H1, L1, C1, t2, O2, H2, L2, C2)
+        desc = get_pattern_desc(align)
+        
+        ax.set_title(f"{code_name}\n({std_name})", fontsize=9)
+        
+        img_name = f"plot_{i//patterns_per_img + 1}.png"
+        logic_str = get_logic_string(t1, align, t2)
+        markdown_lines.append(f"| {code_name} | {desc} | {logic_str} | {std_name} | {img_name} |")
+        
+    img_path = os.path.join('images', img_name)
+    plt.savefig(img_path, bbox_inches='tight')
+    plt.close(fig)
+
+with open('2C_patterns.md', 'w') as f:
+    f.write("\n".join(markdown_lines))
+
+print(f"Generated {total_patterns} patterns and saved to images folder. MD written to 2C_patterns.md")
diff --git a/images/plot_1.png b/images/plot_1.png
new file mode 100644
index 0000000000000000000000000000000000000000..0779041f5c2509079bcf727e62e1d07a89a5ef85
--- /dev/null
+++ b/images/plot_1.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:9ce9e38acbb26757405bb799b62bdc55606959b62708467454cfab4fcfaf69f0
+size 15542
diff --git a/images/plot_10.png b/images/plot_10.png
new file mode 100644
index 0000000000000000000000000000000000000000..25a763b7ba0475a7f1b1cb55c54448d1adb2c6a3
--- /dev/null
+++ b/images/plot_10.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:0ea6e4468d2bed5b6465c1bfcc23098d29129eef6f70bc55315a41c826d54757
+size 16602
diff --git a/images/plot_11.png b/images/plot_11.png
new file mode 100644
index 0000000000000000000000000000000000000000..d0d5246e43a38cc490fbaa9c18b9050148bf4651
--- /dev/null
+++ b/images/plot_11.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:9e1f623389d1611f8a2c62577da8e4006dc2f0c483f553ccf477fa649e6e670d
+size 19139
diff --git a/images/plot_12.png b/images/plot_12.png
new file mode 100644
index 0000000000000000000000000000000000000000..bd027e05c98e11cd01ed926e4cc3d80c4eca6cbf
--- /dev/null
+++ b/images/plot_12.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:1571a1c656e692797de703dce95f430153447292dc6aa6c3525dfe39c3e6aa86
+size 18223
diff --git a/images/plot_13.png b/images/plot_13.png
new file mode 100644
index 0000000000000000000000000000000000000000..62877123aa63929e962e8f394b6699ff24523f74
--- /dev/null
+++ b/images/plot_13.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:f77d087f739be03c4e7bfaa00dd8c050c9da585177cbefa26574cdb171473e63
+size 17245
diff --git a/images/plot_14.png b/images/plot_14.png
new file mode 100644
index 0000000000000000000000000000000000000000..bd984a353c47b9699fdae44fefc1054b750630a9
--- /dev/null
+++ b/images/plot_14.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:84dcd0aff4a9e825ad97416f7ee591c5d2d6a2d148efe9d472f5231c280980d6
+size 20199
diff --git a/images/plot_15.png b/images/plot_15.png
new file mode 100644
index 0000000000000000000000000000000000000000..a69679250d783cb64309bb47e8631cb0954133ef
--- /dev/null
+++ b/images/plot_15.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:284f57eb132b7ca20893bb42d682b6746c9a5d4d4e612d8d137de935d5476bc0
+size 18272
diff --git a/images/plot_16.png b/images/plot_16.png
new file mode 100644
index 0000000000000000000000000000000000000000..409778b94b67bb846d98bda68a2ebdc502e1fc08
--- /dev/null
+++ b/images/plot_16.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:a4554912e22173fcc9170855ad1a6d678b182f5f93847261f967c5d00197e26d
+size 19141
diff --git a/images/plot_17.png b/images/plot_17.png
new file mode 100644
index 0000000000000000000000000000000000000000..d4077ec42a97e31a520dc702db080e879cd747db
--- /dev/null
+++ b/images/plot_17.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:6739a999918f8c53c625c77388c49f423c05af6a5e7767b2e8904417b33c8901
+size 15707
diff --git a/images/plot_18.png b/images/plot_18.png
new file mode 100644
index 0000000000000000000000000000000000000000..ec80d954686a6cbcb87fb138b52696f98567e1d5
--- /dev/null
+++ b/images/plot_18.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:d4122cc7a3d1ee0dc88c0e28ae4856ea3c1506648166166262695226b9c8de6e
+size 16538
diff --git a/images/plot_19.png b/images/plot_19.png
new file mode 100644
index 0000000000000000000000000000000000000000..14775f8708c405f9218c8f7a6373c9c12608438d
--- /dev/null
+++ b/images/plot_19.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:9460995151182ce6b95f64efbeee54ada38869f71082d748585801e339f5331a
+size 18412
diff --git a/images/plot_2.png b/images/plot_2.png
new file mode 100644
index 0000000000000000000000000000000000000000..004e815b659bea4a7a60190c566ba05961e33d55
--- /dev/null
+++ b/images/plot_2.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:25eb082e5af5d6fcda964ea280372949b14afa0683713ba436bedc8b84b8831a
+size 16536
diff --git a/images/plot_20.png b/images/plot_20.png
new file mode 100644
index 0000000000000000000000000000000000000000..543ccd57cd881bc401b8ad98f4c63230b7fc224d
--- /dev/null
+++ b/images/plot_20.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:7839b62b67fd03f9c6affba3ac988207f88b48679d07c97976e79f40a8199b9f
+size 18310
diff --git a/images/plot_21.png b/images/plot_21.png
new file mode 100644
index 0000000000000000000000000000000000000000..63a5d04a1a5a3ad1d9dd2f709063fce5f596bff9
--- /dev/null
+++ b/images/plot_21.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:abc308a6694280605acbfe95eae18fe284f0b91407c9f15b77d6c7a079331c74
+size 17429
diff --git a/images/plot_22.png b/images/plot_22.png
new file mode 100644
index 0000000000000000000000000000000000000000..44cf1463aa108e2c33f9054264aaabe293068ac6
--- /dev/null
+++ b/images/plot_22.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:7d08ac9cbffb762b657291f46644fb95cff9af9d2f7928925e1a5472534d9fbb
+size 20015
diff --git a/images/plot_23.png b/images/plot_23.png
new file mode 100644
index 0000000000000000000000000000000000000000..71d1a03e3a9ebb1965fd7e12458fca7d4b4beb71
--- /dev/null
+++ b/images/plot_23.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:27b24d6dffc42fca68ba7964bb934f7b876f2f563b26f7506145c908c205112f
+size 18458
diff --git a/images/plot_24.png b/images/plot_24.png
new file mode 100644
index 0000000000000000000000000000000000000000..15295f58446d56aec9ef8ef536acc15bb6d26db9
--- /dev/null
+++ b/images/plot_24.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:a7478d5f3edd6658e9439210536114f2b94b7957c2b34a03400e67619bd816f4
+size 19831
diff --git a/images/plot_25.png b/images/plot_25.png
new file mode 100644
index 0000000000000000000000000000000000000000..5bbaf9ed836aeafa4c2c91af9821d7825ecfb88f
--- /dev/null
+++ b/images/plot_25.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:4a64c83e5221ff556fa864334c729291d939cf9e3b84cdea9e01088f7d5c3909
+size 15433
diff --git a/images/plot_26.png b/images/plot_26.png
new file mode 100644
index 0000000000000000000000000000000000000000..f900bb3649b24b18ec442ce365f03c864d4f199b
--- /dev/null
+++ b/images/plot_26.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:f7cf231eedf6770303f41244043bbaa961d35bf70e3353b070e0a1e88cc21e78
+size 17812
diff --git a/images/plot_27.png b/images/plot_27.png
new file mode 100644
index 0000000000000000000000000000000000000000..b51317ed8f675c5fe5c9d38db9a7eae270783842
--- /dev/null
+++ b/images/plot_27.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:9a30c16c7d7f8174a7362133620665babbc233c2b85266d774262c694ab97f35
+size 18936
diff --git a/images/plot_28.png b/images/plot_28.png
new file mode 100644
index 0000000000000000000000000000000000000000..d5c48ff1b93e5b5bcf243b1c3b07e3d2bebfe417
--- /dev/null
+++ b/images/plot_28.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:f26d9c33a174a531e56957a91eae4b274ed0a2bf05c358e62f160d1d228f7491
+size 18395
diff --git a/images/plot_29.png b/images/plot_29.png
new file mode 100644
index 0000000000000000000000000000000000000000..98bfcb5008130cb83da599a6b179ce4cda279e89
--- /dev/null
+++ b/images/plot_29.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:d7df4014dd8e608dd4d86b70c1792b05dc6febcccf67f4a361aeb340e70146f9
+size 17677
diff --git a/images/plot_3.png b/images/plot_3.png
new file mode 100644
index 0000000000000000000000000000000000000000..878d31ff5d3d3a8872778668fbab6db17fa96bb4
--- /dev/null
+++ b/images/plot_3.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:5f142421028bbca4e86a2cb59a289e62a04591689c19b813a1af61d155791ac3
+size 18211
diff --git a/images/plot_30.png b/images/plot_30.png
new file mode 100644
index 0000000000000000000000000000000000000000..993bd301c9bd9f6b4414706b067f4a63b7129695
--- /dev/null
+++ b/images/plot_30.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:0e6b464620825bba80dbfef27018269379e2195e566633922e8320941f43b845
+size 19999
diff --git a/images/plot_31.png b/images/plot_31.png
new file mode 100644
index 0000000000000000000000000000000000000000..8444554a9b069ba03888dca84fdce5ff748196e0
--- /dev/null
+++ b/images/plot_31.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:b8fa0893d28ee671fe8790379ee8c96f98c786da274f81017a585b1bb2457bac
+size 18025
diff --git a/images/plot_32.png b/images/plot_32.png
new file mode 100644
index 0000000000000000000000000000000000000000..ab2c093e2e37c5f95c7d4db639e378e7750c9a20
--- /dev/null
+++ b/images/plot_32.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:829aaa57b3178c1b4fda0c256c2441c80a16bf00c24e456d14db40d2e60a1ea4
+size 19562
diff --git a/images/plot_33.png b/images/plot_33.png
new file mode 100644
index 0000000000000000000000000000000000000000..63f5e3c404259b12beba3606a106f414ebccdbe1
--- /dev/null
+++ b/images/plot_33.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:88378db551586a5b7f10f3043f78afa99b32e9f9c5f3e6798f4cd1d12fffa813
+size 15923
diff --git a/images/plot_34.png b/images/plot_34.png
new file mode 100644
index 0000000000000000000000000000000000000000..ee65f54f2533d7602b47bdbcfc90ff5c4b7ec955
--- /dev/null
+++ b/images/plot_34.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:816bd97009658ea8ff111ff2bdb69d35c95da4c35f33eb79323a957366fe2181
+size 18636
diff --git a/images/plot_35.png b/images/plot_35.png
new file mode 100644
index 0000000000000000000000000000000000000000..81f366d526f991b336554a1b29be37420d985ec7
--- /dev/null
+++ b/images/plot_35.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:de7bcb90bd47ea30c427d7a7626067ed9152ec22a20023675d264314f5e2f660
+size 17969
diff --git a/images/plot_36.png b/images/plot_36.png
new file mode 100644
index 0000000000000000000000000000000000000000..ee564f0459d4675018bab0497a8bac66df31c5e0
--- /dev/null
+++ b/images/plot_36.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:8882fd8c0f37e7d75a9fe9d1e26502d73c97c21a2ae89398bf0cea22d8e1a851
+size 16984
diff --git a/images/plot_37.png b/images/plot_37.png
new file mode 100644
index 0000000000000000000000000000000000000000..8d2dd3e16567c7f3f59602ccfb661dfead5c8f52
--- /dev/null
+++ b/images/plot_37.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:4718449586bfc38ea6bc9812fe980a31a592dde51baa45d6fa6e8d0379cae936
+size 20032
diff --git a/images/plot_38.png b/images/plot_38.png
new file mode 100644
index 0000000000000000000000000000000000000000..65b2c9dcee1356e5bd3c5c95e59bdecbf4889b2d
--- /dev/null
+++ b/images/plot_38.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:63ce34ca2fb8f5b818777bb7d548d7bf40ab62dfaf3ccbb6ac2681a76269e1ef
+size 18001
diff --git a/images/plot_39.png b/images/plot_39.png
new file mode 100644
index 0000000000000000000000000000000000000000..675187448f66d7628d67380ccdcbb8902a9b8068
--- /dev/null
+++ b/images/plot_39.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:e72ec27b0d426d2a0aa34c00187ddb17db9715a657c37613f71a7b5c55f9d5bd
+size 18779
diff --git a/images/plot_4.png b/images/plot_4.png
new file mode 100644
index 0000000000000000000000000000000000000000..06e60aa58af3cf558ac0f14b3157b4e4ea08f141
--- /dev/null
+++ b/images/plot_4.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:a51873b26e17414dd95ac61d0aeed6300be2ccc60351bc30c553367c47ae31ab
+size 17813
diff --git a/images/plot_40.png b/images/plot_40.png
new file mode 100644
index 0000000000000000000000000000000000000000..c9c0241ffce3284bf2cbea09ed62e4d2b0028826
--- /dev/null
+++ b/images/plot_40.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:09fb895d854904c757251b5c7b8f9b9bbda5143e920f83b1f71aad6f1ddbb3c0
+size 21722
diff --git a/images/plot_41.png b/images/plot_41.png
new file mode 100644
index 0000000000000000000000000000000000000000..2d7af8c44abf4c399368220d87ede4b3eb0c6c40
--- /dev/null
+++ b/images/plot_41.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:b959a766ee8244241e85b31182af6bd4490b5ea2aea170321376cca03610c86e
+size 15981
diff --git a/images/plot_42.png b/images/plot_42.png
new file mode 100644
index 0000000000000000000000000000000000000000..f551c85e9433b5097d67b4be3d172a754d79ee15
--- /dev/null
+++ b/images/plot_42.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:3ccd078be3d60605c09a6f86804ee8810537dbcf4c2f857a40b01c402e4e57a6
+size 18580
diff --git a/images/plot_43.png b/images/plot_43.png
new file mode 100644
index 0000000000000000000000000000000000000000..947eb78eaae80685c6a54c669799c7e16250d5ae
--- /dev/null
+++ b/images/plot_43.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:210bf458dc8cece73375eed6aff5cc5459e7542d5a78ee416d8a03a2ad2f6f9b
+size 20111
diff --git a/images/plot_44.png b/images/plot_44.png
new file mode 100644
index 0000000000000000000000000000000000000000..bca4049e333cff137c2da61868181a493a35d65c
--- /dev/null
+++ b/images/plot_44.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:f491d7c9e1ee64e8515f0a7e41c6444bece1da176de9361231aff57b44e978d6
+size 17439
diff --git a/images/plot_45.png b/images/plot_45.png
new file mode 100644
index 0000000000000000000000000000000000000000..cc941dfa8f685a7931b4a699a580e9208bcb58c5
--- /dev/null
+++ b/images/plot_45.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:cfe2546a5ccb6ff399c0671a8ab9022f1ddad52371374fa05715220a4e47996e
+size 21078
diff --git a/images/plot_46.png b/images/plot_46.png
new file mode 100644
index 0000000000000000000000000000000000000000..7ead08120fba328a82d256cb77f078daed3118b7
--- /dev/null
+++ b/images/plot_46.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:08e280882daf34e08678e95807a45cf26658c37af53ace2f890af280bd0a5c87
+size 20105
diff --git a/images/plot_47.png b/images/plot_47.png
new file mode 100644
index 0000000000000000000000000000000000000000..a4f8841b0362752e465dd16aa85cde0702be13e8
--- /dev/null
+++ b/images/plot_47.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:33bd850aee4c252155e08f080ed92a2e519843182ca47bb943ad4809c6e19cc8
+size 17557
diff --git a/images/plot_48.png b/images/plot_48.png
new file mode 100644
index 0000000000000000000000000000000000000000..85e5bfd5f3d7e591a3ff24571376187605ff0d10
--- /dev/null
+++ b/images/plot_48.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:960b2ea55bb7fc3b809d094f065f590a9e11a5ce4a52c3c7169a1dfaeead1bfc
+size 23488
diff --git a/images/plot_49.png b/images/plot_49.png
new file mode 100644
index 0000000000000000000000000000000000000000..bd32e8390ec164d16e349e961677c371552f86cb
--- /dev/null
+++ b/images/plot_49.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:e1d363954e8ad59dd41f8915a9d47485bfc665bee98a14d35a7387f36ad1e5dd
+size 16062
diff --git a/images/plot_5.png b/images/plot_5.png
new file mode 100644
index 0000000000000000000000000000000000000000..67b0596a85ea7b1f5932d9957851653b6eb58ff5
--- /dev/null
+++ b/images/plot_5.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:3acdd6558c26978b2e8fc0238cdbd1f0f0d60863be4bed8efef78967ec95064c
+size 16839
diff --git a/images/plot_50.png b/images/plot_50.png
new file mode 100644
index 0000000000000000000000000000000000000000..d755d3bcd4ca447cd5e740e8f499ce0def9ea666
--- /dev/null
+++ b/images/plot_50.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:615301192c7419c54199860b915f7b5216af79a19c21baee45d6ac9f26a81b87
+size 18697
diff --git a/images/plot_51.png b/images/plot_51.png
new file mode 100644
index 0000000000000000000000000000000000000000..62e438fcffc2e2c8c44e88a632cf2138ba122082
--- /dev/null
+++ b/images/plot_51.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:ed2d5d13c4a72d5ebdfe531d47b282d30879ca830dc1e1bf3155b9bc2c31f3da
+size 18026
diff --git a/images/plot_52.png b/images/plot_52.png
new file mode 100644
index 0000000000000000000000000000000000000000..c1923591ff6170b10817ac12a2508b11c3a64a08
--- /dev/null
+++ b/images/plot_52.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:f877247a4c94d9191707454f9f04045a7d33d21270f07627a0b9b5cb69e32f10
+size 17436
diff --git a/images/plot_53.png b/images/plot_53.png
new file mode 100644
index 0000000000000000000000000000000000000000..e68c80066e1254cef73ee9284d3d10eb6c387c5a
--- /dev/null
+++ b/images/plot_53.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:7993984d7c13edfc4d6179619308116e4af602833c1f1dae76a11a103bbdd654
+size 20259
diff --git a/images/plot_54.png b/images/plot_54.png
new file mode 100644
index 0000000000000000000000000000000000000000..0a0e5c6b5d517bd3acd14e2db151431d191941e7
--- /dev/null
+++ b/images/plot_54.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:0ab5e1587b21663efd465f7dc26db81e9ed69664bb1e46c9624695dd274c8afd
+size 18264
diff --git a/images/plot_55.png b/images/plot_55.png
new file mode 100644
index 0000000000000000000000000000000000000000..d1d500ae8a2782e71257cfac7738499a11bae772
--- /dev/null
+++ b/images/plot_55.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:a4503672072f4adc14d7eb9b23dca20035f612dbecddd88c6e51b53320ed0138
+size 19095
diff --git a/images/plot_56.png b/images/plot_56.png
new file mode 100644
index 0000000000000000000000000000000000000000..698b6b9df07664c5e15d19b2bf31ca77064e577c
--- /dev/null
+++ b/images/plot_56.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:81ff1ac9bcae83d2380aff778decf28d96ec6407c808aa8722c8e2e9f123c0a1
+size 21793
diff --git a/images/plot_57.png b/images/plot_57.png
new file mode 100644
index 0000000000000000000000000000000000000000..f4cb217a9736d735a236af0634debc1323979c11
--- /dev/null
+++ b/images/plot_57.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:8c1363f826658b81c88cfcc723c0445a2bf7a7a93e83d0203002cba82a4a2dfa
+size 17155
diff --git a/images/plot_58.png b/images/plot_58.png
new file mode 100644
index 0000000000000000000000000000000000000000..1769424f3f791a09627673c4ddea449c2ca3ad69
--- /dev/null
+++ b/images/plot_58.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:12bee79c21622f6998dd2667155356fe50c50808aea7ae924d26215bc2933ae1
+size 18390
diff --git a/images/plot_59.png b/images/plot_59.png
new file mode 100644
index 0000000000000000000000000000000000000000..eb63d4b122c2b3bcb09a99b8a7e32789ea8a9acc
--- /dev/null
+++ b/images/plot_59.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:79ef1c1140c3b42d4db5878ed44f18670f7b625752eb97f4b15eff316256032a
+size 19883
diff --git a/images/plot_6.png b/images/plot_6.png
new file mode 100644
index 0000000000000000000000000000000000000000..a1f68324c6236d7766b946ad32110013d96a5591
--- /dev/null
+++ b/images/plot_6.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:d649371cd6c7cfc34c53e32fa2e213d6d94a1ee82732b5e87bb869cd2193fcbc
+size 20090
diff --git a/images/plot_60.png b/images/plot_60.png
new file mode 100644
index 0000000000000000000000000000000000000000..4bdb6282f3e945a89d40f542ae56244702cceabf
--- /dev/null
+++ b/images/plot_60.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:e43532b92606ef12eb78f833e7f1c8588a58b56aef66f1e9dfea80aff72afe27
+size 17473
diff --git a/images/plot_61.png b/images/plot_61.png
new file mode 100644
index 0000000000000000000000000000000000000000..be48b64894cb6b03533d637418acae403910bcb7
--- /dev/null
+++ b/images/plot_61.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:531b98ec21b2a93245e12d39936479ae327e1648c6e733d8bfcbb8935e7b52b6
+size 21092
diff --git a/images/plot_62.png b/images/plot_62.png
new file mode 100644
index 0000000000000000000000000000000000000000..478f07c57417f9c99e2026bcde09be690468d92b
--- /dev/null
+++ b/images/plot_62.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:b95001cab06729a0001295c1a6f1cc7559dce5794d9e1243f93fd2957143b38b
+size 20219
diff --git a/images/plot_63.png b/images/plot_63.png
new file mode 100644
index 0000000000000000000000000000000000000000..74c313857ef44bc11c97aa90c57b523a2edcdcc1
--- /dev/null
+++ b/images/plot_63.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:7f04f3c45e86ab67699f2f62ff8227b09e1b6008411c7addcad85349753a170f
+size 17377
diff --git a/images/plot_64.png b/images/plot_64.png
new file mode 100644
index 0000000000000000000000000000000000000000..97e0f6d05949df67bf16fb5e4f83ccce043c5467
--- /dev/null
+++ b/images/plot_64.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:a5928490f9c93e87bd20ba972385dc0537b6435880d026b9ecd949991d5c30c3
+size 23166
diff --git a/images/plot_7.png b/images/plot_7.png
new file mode 100644
index 0000000000000000000000000000000000000000..a469f5ec850e341db87be4151e2638ebe9b3efd2
--- /dev/null
+++ b/images/plot_7.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:e4d43246b12f7dad4d36ccab1c8f6b8a301577470db08142c0c560fcfc6f67b3
+size 18224
diff --git a/images/plot_8.png b/images/plot_8.png
new file mode 100644
index 0000000000000000000000000000000000000000..c0a7b433f42f8b9912abb0ab21b57db110b17a8b
--- /dev/null
+++ b/images/plot_8.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:6fdf9f06d8e50752552a4db0111cdcaa962f3ed3ee1ecfdede3dc0ee85be1f9c
+size 19149
diff --git a/images/plot_9.png b/images/plot_9.png
new file mode 100644
index 0000000000000000000000000000000000000000..1d2e6fc1ac92a524f1d8ffd5fe66f3df18f6aac7
--- /dev/null
+++ b/images/plot_9.png
@@ -0,0 +1,3 @@
+version https://git-lfs.github.com/spec/v1
+oid sha256:76542e6589f1e98881a5512ad27b4fbbc2b5acbc023422f80e38f7c8d125224c
+size 15644